Your search keyword '"Pucella G."' showing total 1,121 results

1. Impurity behaviour in JET high-current baseline scenario for Deuterium, Tritium and Deuterium-Tritium plasmas

Author

Wendler, N., Chomiczewska, A., Gromelski, W., Kowalska-Strzęciwilk, E., Telesca, G., Ivanova–Stanik, I., Garzotti, L., Van Eester, D., Zotta, V.K., Frigione, D., Rimini, F., and Pucella, G.

Published

2024

2. Latest results on quiescent and post-disruption runaway electron mitigation experiments at Frascati Tokamak Upgrade

Author

Carnevale, D., Buratti, P., Baruzzo, M., Bin, W., Bombarda, F., Boncagni, L., Paz-Soldan, C., Calacci, L., Cappelli, M., Castaldo, C., Ceccuzzi, S., Centioli, C., Cianfarani, C., Coda, S., Cordella, F., Arcangelo, O. D, Decker, J., Duval, B., Esposito, B., Gabellieri, L., Galeani, S., Garavaglia, S., Galperti, C., Ghillardi, G., Granucci, G., Lenhen, M., Liuzza, D., Martinelli, F., Mazzotta, C., Napoli, F., Nardon, E., Oliva, F., Panaccione, L., Passeri, M., Pucella, G., Ramogida, G., Romano, A., Sassano, M., Tudisco, O., team, the Ftu, and Team, Eurofusion Mst1

Subjects

Physics - Plasma Physics

Abstract

Results from the last FTU campaigns on the deuterium large (wrt FTU volume) pellet REs suppression capability, mainly due to the induced burst MHD activity expelling REs seed are presented for discharges with 0.5 MA and 5.3T. Clear indications of avalanche multiplication of REs following single pellet injection on 0.36 MA flat-top discharges is shown together with quantitative indications of dissipative effects in terms of critical electrical field increase due to fan-like instabilities. Analysis of large fan-like instabilities on post-disruption RE beams, that seem to be correlated with low electrical field and background density drops, reveal their strong RE energy suppression capability suggesting a new strategy for RE energy suppression controlling large fan instabilities. We demonstrate how such density drops can be induced using modulated ECRH power on post-disruption beams., Comment: DRAFT that will be submitted to NF (the conference version is on FEC/IAEA conference 2020)

Published

2021

3. Locked mode detection during error field identification studies

Author

Piron, L., Buratti, P., Falessi, M., Gambrioli, M., Graham, G., Lennhol, M., Valcarcel, D.F., Zonca, F., Henriques, R., Gerasimov, S., Hender, T., Joffrin, E., Kirov, K., Mitchell, J., Pucella, G., Sauter, O., Szepesi, G., Terranova, D., and Zanca, P.

Published

2023

4. Calibration of AGILE-GRID with on-ground data and Monte Carlo simulations

Author

Cattaneo, P. W., Rappoldi, A., Argan, A., Barbiellini, G., Boffelli, F., Bulgarelli, A., Buonomo, B., Cardillo, M., Chen, A. W., Cocco, V., Colafrancesco, S., D'Ammando, F., Donnarumma, I., Ferrari, A., Fioretti, V., Foggetta, L., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Longo, F., Lucarelli, F., Marisaldi, M., Mazzitelli, G., Morselli, A., Paoletti, F., Parmigiani, N., Pellizzoni, A., Piano, G., Pilia, M., Pittori, C., Prest, M., Pucella, G., Quintieri, L., Sabatini, S., Tavani, M., Trifoglio, M., Trois, A., Valente, P., Vallazza, E., Vercellone, S., Verrecchia, F., and Zambra, A.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

AGILE is a mission of the Italian Space Agency (ASI) Scientific Program dedicated to gamma-ray astrophysics, operating in a low Earth orbit since April 23, 2007. It is designed to be a very light and compact instrument, capable of simultaneously detecting and imaging photons in the 18 keV to 60 keV X-ray energy band and in the 30 MeV{50 GeV gamma-ray energy with a good angular resolution (< 1 deg at 1 GeV). The core of the instrument is the Silicon Tracker complemented with a CsI calorimeter and a AntiCoincidence system forming the Gamma Ray Imaging Detector (GRID). Before launch, the GRID needed on-ground calibration with a tagged gamma-ray beam to estimate its performance and validate the Monte Carlo simulation. The GRID was calibrated using a tagged gamma-ray beam with energy up to 500 MeV at the Beam Test Facilities at the INFN Laboratori Nazionali di Frascati. These data are used to validate a GEANT3 based simulation by comparing the data and the Monte Carlo simulation by measuring the angular and energy resolutions. The GRID angular and energy resolutions obtained using the beam agree well with the Monte Carlo simulation. Therefore the simulation can be used to simulate the same performance on-light with high reliability., Comment: 19 page 12 figures

Published

2018

5. Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO

Author

Joffrin, E, Wischmeier, M, Baruzzo, M, Hakola, A, Kappatou, A, Keeling, D, Labit, B, Tsitrone, E, Vianello, N, Abate, D, Adamek, J, Agostini, M, Albert, C, Devasagayam, F, Aleiferis, S, Alessi, E, Alhage, J, Allan, S, Allcock, J, Alonzo, M, Anastasiou, G, Sunden, E, Angioni, C, Anquetin, Y, Appel, L, Apruzzese, G, Ariola, M, Arnas, C, Artaud, J, Arter, W, Asztalos, O, Aucone, L, Aumeunier, M, Auriemma, F, Ayllon, J, Aymerich, E, Baciero, A, Bagnato, F, Bahner, L, Bairaktaris, F, Balazs, P, Balbinot, L, Balboa, I, Balden, M, Balestri, A, Ruiz, M, Barberis, T, Barcellona, C, Bardsley, O, Benkadda, S, Bensadon, T, Bernard, E, Bernert, M, Betar, H, Morales, R, Bielecki, J, Bilato, R, Bilkova, P, Bin, W, Birkenmeier, G, Bisson, R, Blanchard, P, Bleasdale, A, Bobkov, V, Boboc, A, Bock, A, Bogar, K, Bohm, P, Bolzonella, T, Bombarda, F, Bonanomi, N, Boncagni, L, Bonfiglio, D, Bonifetto, R, Bonotto, M, Borodin, D, Borodkina, I, Bosman, T, Bourdelle, C, Bowman, C, Brezinsek, S, Brida, D, Brochard, F, Brunet, R, Brunetti, D, Bruno, V, Buchholz, R, Buermans, J, Bufferand, H, Buratti, P, Burckhart, A, Cai, J, Calado, R, Caloud, J, Cancelli, S, Cani, F, Cannas, B, Cappelli, M, Carcangiu, S, Cardinali, A, Carli, S, Carnevale, D, Carole, M, Carpita, M, Carralero, D, Caruggi, F, Carvalho, I, Casiraghi, I, Casolari, A, Casson, F, Castaldo, C, Cathey, A, Causa, F, Cavalier, J, Cavedon, M, Cazabonne, J, Cecconello, M, Ceelen, L, Celora, A, Cerovsky, J, Challis, C, Chandra, R, Chankin, A, Chapman, B, Chen, H, Chernyshova, M, Chiariello, A, Chmielewski, P, Chomiczewska, A, Cianfarani, C, Ciraolo, G, Citrin, J, Clairet, F, Coda, S, Coelho, R, Coenen, J, Coffey, I, Colandrea, C, Colas, L, Conroy, S, Contre, C, Conway, N, Cordaro, L, Corre, Y, Costa, D, Costea, S, Coster, D, Courtois, X, Cowley, C, Craciunescu, T, Croci, G, Croitoru, A, Crombe, K, Cruz Zabala, D, Cseh, G, Czarski, T, Da Ros, A, Dal Molin, A, Dalla Rosa, M, Damizia, Y, D'Arcangelo, O, David, P, De Angeli, M, De la Cal, E, De La Luna, E, De Tommasi, G, Decker, J, Dejarnac, R, Del Sarto, D, Derks, G, Desgranges, C, Devynck, P, Di Genova, S, di Grazia, L, Di Siena, A, Dicorato, M, Diez, M, Dimitrova, M, Dittmar, T, Dittrich, L, Palacios Duran, J, Donnel, P, Douai, D, Dowson, S, Doyle, S, Dreval, M, Drews, P, Dubus, L, Dumont, R, Dunai, D, Dunne, M, Durif, A, Durodie, F, Durr Legoupil Nicoud, G, Duval, B, Dux, R, Eich, T, Ekedahl, A, Elmore, S, Ericsson, G, Eriksson, J, Eriksson, B, Eriksson, F, Ertmer, S, Escarguel, A, Esposito, B, Estrada, T, Fable, E, Faitsch, M, Fakhrayi Mofrad, N, Fanni, A, Farley, T, Farnik, M, Fedorczak, N, Felici, F, Feng, X, Ferreira, J, Ferreira, D, Ferron, N, Fevrier, O, Ficker, O, Field, A, Figueiredo, A, Fil, N, Fiorucci, D, Firdaouss, M, Fischer, R, Fitzgerald, M, Flebbe, M, Fontana, M, Climent, J, Frank, A, Fransson, E, Frassinetti, L, Frigione, D, Futatani, S, Futtersack, R, Gabriellini, S, Gadariya, D, Galassi, D, Galazka, K, Galdon, J, Galeani, S, Gallart, D, Gallo, A, Galperti, C, Gambrioli, M, Garavaglia, S, Garcia, J, Munoz, M, Gardarein, J, Garzotti, L, Gaspar, J, Gatto, R, Gaudio, P, Gelfusa, M, Gerardin, J, Gerasimov, S, Miguelanez, R, Gervasini, G, Ghani, Z, Ghezzi, F, Ghillardi, G, Giannone, L, Gibson, S, Gil, L, Gillgren, A, Giovannozzi, E, Giroud, C, Giruzzi, G, Gleiter, T, Gobbin, M, Goloborodko, V, Ganzabal, A, Goodman, T, Gopakumar, V, Gorini, G, Gorler, T, Gorno, S, Granucci, G, Greenhouse, D, Grenfell, G, Griener, M, Gromelski, W, Groth, M, Grover, O, Gruca, M, Gude, A, Guillemaut, C, Guirlet, R, Gunn, J, Gyergyek, T, Hagg, L, Hall, J, Ham, C, Hamed, M, Happel, T, Harrer, G, Harrison, J, Harting, D, Hawkes, N, Heinrich, P, Henderson, S, Hennequin, P, Henriques, R, Heuraux, S, Salaverri, J, Hillairet, J, Hillesheim, J, Hjalmarsson, A, Ho, A, Hobirk, J, Hodille, E, Holzl, M, Hoppe, M, Horacek, J, Horsten, N, Horvath, L, Houry, M, Hromasova, K, Huang, J, Huang, Z, Huber, A, Huett, E, Huynh, P, Iantchenko, A, Imrisek, M, Innocente, P, Schrittwieser, C, Isliker, H, Ivanova, P, Stanik, I, Jablczynska, M, Jachmich, S, Jacobsen, A, Jacquet, P, van Vuuren, A, Jardin, A, Jarleblad, H, Jarvinen, A, Jaulmes, F, Jensen, T, Jepu, I, Jessica, S, Johnson, T, Juven, A, Kalis, J, Karhunen, J, Karimov, R, Karpushov, A, Kasilov, S, Kazakov, Y, Kazantzidis, P, Kernbichler, W, Kim, H, King, D, Kiptily, V, Kirjasuo, A, Kirov, K, Kirschner, A, Kit, A, Kiviniemi, T, Kjaer, F, Klinkby, E, Knieps, A, Knoche, U, Kochan, M, Kochl, F, Kocsis, G, Koenders, J, Kogan, L, Kolesnichenko, Y, Kominis, Y, Komm, M, Kong, M, Kool, B, Korsholm, S, Kos, D, Koubiti, M, Kovacic, J, Kovtun, Y, Strzeciwilk, E, Koziol, K, Kozulia, M, Flecken, A, Kreter, A, Krieger, K, Kruezi, U, Krutkin, O, Kudlacek, O, Kumar, U, Kumpulainen, H, Kushoro, M, Kwiatkowski, R, La Matina, M, Lacquaniti, M, Laguardia, L, Lainer, P, Lang, P, Larsen, M, Laszynska, E, Lawson, K, Lazaros, A, Lazzaro, E, Lee, M, Leerink, S, Lehnen, M, Lennholm, M, Lerche, E, Liang, Y, Lier, A, Likonen, J, Linder, O, Lipschultz, B, Listopad, A, Litaudon, X, Smith, E, Liuzza, D, Loarer, T, Lomas, P, Lombardo, J, Lonigro, N, Lorenzini, R, Lowry, C, di Cortemiglia, T, Ludvig Osipov, A, Lunt, T, Lutsenko, V, Macusova, E, Maenpaa, R, Maget, P, Maggi, C, Mailloux, J, Makarov, S, Malinowski, K, Manas, P, Mancini, A, Mancini, D, Mantica, P, Mantsinen, M, Manyer, J, Maraschek, M, Marceca, G, Marcer, G, Marchetto, C, Marchioni, S, Mariani, A, Marin, M, Markl, M, Markovic, T, Marocco, D, Marsden, S, Martellucci, L, Martin, P, Martin, C, Martinelli, F, Martinelli, L, Solis, J, Martone, R, Maslov, M, Masocco, R, Mattei, M, Matthews, G, Matveev, D, Matveeva, E, Mayoral, M, Mazon, D, Mazzi, S, Mazzotta, C, Mcardle, G, Mcdermott, R, Mckay, K, Meigs, A, Meineri, C, Mele, A, Menkovski, V, Menmuir, S, Merle, A, Meyer, H, Michalik, K, Milanesio, D, Militello, F, Milocco, A, Miron, I, Mitchell, J, Mitteau, R, Mitterauer, V, Mlynar, J, Moiseenko, V, Molna, P, Mombelli, F, Monti, C, Montisci, A, Morales, J, Moreau, P, Moret, J, Moro, A, Moulton, D, Mulholland, P, Muraglia, M, Murari, A, Muraro, A, Muscente, P, Mykytchuk, D, Nabais, F, Nakeva, Y, Napoli, F, Nardon, E, Nave, M, Nem, R, Nielsen, A, Nielsen, S, Nocente, M, Nouailletas, R, Nowak, S, Nystrom, H, Ochoukov, R, Offeddu, N, Olasz, S, Olde, C, Oliva, F, Oliveira, D, Oliver, H, Ollus, P, Ongena, J, Orsitto, F, Osborne, N, Otin, R, Dominguez, P, Palade, D, Palomba, S, Pan, O, Panadero, N, Panontin, E, Papadopoulos, A, Papagiannis, P, Papp, G, Parail, V, Pardanaud, C, Parisi, J, Parrott, A, Paschalidis, K, Passoni, M, Pastore, F, Patel, A, Patel, B, Pau, A, Pautasso, G, Pavlichenko, R, Pawelec, E, Pegourie, B, Pelka, G, Peluso, E, Perek, A, Cippo, E, Von Thun, C, Petersson, P, Petravich, G, Peysson, Y, Piergotti, V, Pigatto, L, Piron, C, Piron, L, Pironti, A, Pisano, F, Plank, U, Ploeckl, B, Plyusnin, V, Podolnik, A, Poels, Y, Pokol, G, Poley, J, Por, G, Poradzinski, M, Porcelli, F, Porte, L, Possieri, C, Poulsen, A, Predebon, I, Pucella, G, Pueschel, M, Puglia, P, Putignano, O, Putterich, T, Quadri, V, Quercia, A, Rabinski, M, Radovanovic, L, Ragona, R, Raj, H, Rasinski, M, Rasmussen, J, Ratta, G, Ratynskaia, S, Rayaprolu, R, Rebai, M, Redl, A, Rees, D, Refy, D, Reich, M, Reimerdes, H, Reman, B, Renders, O, Reux, C, Ricci, D, Richou, M, Rienacker, S, Rigamonti, D, Rigollet, F, Rimini, F, Ripamonti, D, Rispoli, N, Rivals, N, Rodriguez, J, Roach, C, Rocchi, G, Rode, S, Rodrigues, P, Romazanov, J, Madrid, C, Rosato, J, Rossi, R, Rubino, G, Rueda, J, Ruiz, J, Ryan, P, Ryan, D, Saarelma, S, Sabot, R, Salewski, M, Salmi, A, Sanchis, L, Sand, A, Santos, J, Sarkimaki, K, Sassano, M, Sauter, O, Schettini, G, Schmuck, S, Schneider, P, Schoonheere, N, Schramm, R, Schrittwieser, R, Schuster, C, Schwarz, N, Sciortino, F, D Abusco, M, Scully, S, Selce, A, Senni, L, Senstius, M, Sergienko, G, Sharapov, S, Sharma, R, Shaw, A, Sheikh, U, Sias, G, Sieglin, B, Silburn, S, Silva, C, Silva, A, Silvagni, D, Schmidt, B, Simons, L, Simpson, J, Singh, L, Sipila, S, Siusko, Y, Smith, S, Snicker, A, Solano, E, Solokha, V, Sos, M, Sozzi, C, Spineanu, F, Spizzo, G, Spolaore, M, Spolladore, L, Srinivasan, C, Stagni, A, Stancar, Z, Stankunas, G, Stober, J, Strand, P, Stuart, C, Subba, F, Sun, G, Sun, H, Suttrop, W, Svoboda, J, Szepesi, T, Szepesi, G, Tal, B, Tala, T, Tamain, P, Tardini, G, Tardocchi, M, Taylor, D, Telesca, G, Tenaglia, A, Terra, A, Terranova, D, Testa, D, Theiler, C, Tholerus, E, Thomas, B, Thoren, E, Thornton, A, Thrysoe, A, Tichit, Q, Tierens, W, Titarenko, A, Tolias, P, Tomasina, E, Tomes, M, Tonello, E, Tookey, A, Jimenez, M, Tsironis, C, Tsui, C, Tykhyy, A, Ugoletti, M, Usoltseva, M, Valcarcel, D, Valentini, A, Valisa, M, Vallar, M, Valovic, M, Valvis, S, van Berkel, M, Van Eester, D, Van Mulders, S, van Rossem, M, Vann, R, Vanovac, B, Varje, J, Vartanian, S, Vecsei, M, Gallardo, L, Veranda, M, Verdier, T, Verdoolaege, G, Verhaegh, K, Vermare, L, Rinati, G, Vicente, J, Viezzer, E, Vignitchouk, L, Villone, F, Vincent, B, Vincenzi, P, Vlad, M, Vogel, G, Voitsekhovitch, I, Voldiner, I, Vondracek, P, Vu, N, Vuoriheimo, T, Wade, C, Wang, E, Wauters, T, Weiland, M, Weisen, H, Wendler, N, Weston, D, Widdowson, A, Wiesen, S, Wiesenberger, M, Wijkamp, T, Willensdorfer, M, Wilson, T, Wojenski, A, Wuethrich, C, Wyss, I, Xiang, L, Xu, S, Yadykin, D, Yakovenko, Y, Yang, H, Yanovskiy, V, Yi, R, Zaar, B, Zadvitskiy, G, Zakharov, L, Zanca, P, Zarzoso, D, Zayachuk, Y, Zebrowski, J, Zerbini, M, Zestanakis, P, Zimmermann, C, Zlobinski, M, Zohar, A, Zotta, V, Zou, X, Zuin, M, Zurita, M, Zychor, I, Joffrin E., Wischmeier M., Baruzzo M., Hakola A., Kappatou A., Keeling D., Labit B., Tsitrone E., Vianello N., Abate D., Adamek J., Agostini M., Albert C., Devasagayam F. C. P. A., Aleiferis S., Alessi E., Alhage J., Allan S., Allcock J., Alonzo M., Anastasiou G., Sunden E. A., Angioni C., Anquetin Y., Appel L., Apruzzese G. M., Ariola M., Arnas C., Artaud J. F., Arter W., Asztalos O., Aucone L., Aumeunier M. H., Auriemma F., Ayllon J., Aymerich E., Baciero A., Bagnato F., Bahner L., Bairaktaris F., Balazs P., Balbinot L., Balboa I., Balden M., Balestri A., Ruiz M. B., Barberis T., Barcellona C., Bardsley O., Benkadda S., Bensadon T., Bernard E., Bernert M., Betar H., Morales R. B., Bielecki J., Bilato R., Bilkova P., Bin W., Birkenmeier G., Bisson R., Blanchard P., Bleasdale A., Bobkov V., Boboc A., Bock A., Bogar K., Bohm P., Bolzonella T., Bombarda F., Bonanomi N., Boncagni L., Bonfiglio D., Bonifetto R., Bonotto M., Borodin D., Borodkina I., Bosman T. O. S. J., Bourdelle C., Bowman C., Brezinsek S., Brida D., Brochard F., Brunet R., Brunetti D., Bruno V., Buchholz R., Buermans J., Bufferand H., Buratti P., Burckhart A., Cai J., Calado R., Caloud J., Cancelli S., Cani F., Cannas B., Cappelli M., Carcangiu S., Cardinali A., Carli S., Carnevale D., Carole M., Carpita M., Carralero D., Caruggi F., Carvalho I. S., Casiraghi I., Casolari A., Casson F. J., Castaldo C., Cathey A., Causa F., Cavalier J., Cavedon M., Cazabonne J., Cecconello M., Ceelen L., Celora A., Cerovsky J., Challis C. D., Chandra R., Chankin A., Chapman B., Chen H., Chernyshova M., Chiariello A. G., Chmielewski P., Chomiczewska A., Cianfarani C., Ciraolo G., Citrin J., Clairet F., Coda S., Coelho R., Coenen J. W., Coffey I. H., Colandrea C., Colas L., Conroy S., Contre C., Conway N. J., Cordaro L., Corre Y., Costa D., Costea S., Coster D., Courtois X., Cowley C., Craciunescu T., Croci G., Croitoru A. M., Crombe K., Cruz Zabala D. J., Cseh G., Czarski T., Da Ros A., Dal Molin A., Dalla Rosa M., Damizia Y., D'Arcangelo O., David P., De Angeli M., De la Cal E., De La Luna E., De Tommasi G., Decker J., Dejarnac R., Del Sarto D., Derks G., Desgranges C., Devynck P., Di Genova S., di Grazia L. E., Di Siena A., Dicorato M., Diez M., Dimitrova M., Dittmar T., Dittrich L., Palacios Duran J. J. D., Donnel P., Douai D., Dowson S., Doyle S., Dreval M., Drews P., Dubus L., Dumont R., Dunai D., Dunne M., Durif A., Durodie F., Durr Legoupil Nicoud G., Duval B., Dux R., Eich T., Ekedahl A., Elmore S., Ericsson G., Eriksson J., Eriksson B., Eriksson F., Ertmer S., Escarguel A., Esposito B., Estrada T., Fable E., Faitsch M., Fakhrayi Mofrad N., Fanni A., Farley T., Farnik M., Fedorczak N., Felici F., Feng X., Ferreira J., Ferreira D., Ferron N., Fevrier O., Ficker O., Field A. R., Figueiredo A., Fil N., Fiorucci D., Firdaouss M., Fischer R., Fitzgerald M., Flebbe M., Fontana M., Climent J. F., Frank A., Fransson E., Frassinetti L., Frigione D., Futatani S., Futtersack R., Gabriellini S., Gadariya D., Galassi D., Galazka K., Galdon J., Galeani S., Gallart D., Gallo A., Galperti C., Gambrioli M., Garavaglia S., Garcia J., Munoz M. G., Gardarein J., Garzotti L., Gaspar J., Gatto R., Gaudio P., Gelfusa M., Gerardin J., Gerasimov S. N., Miguelanez R. G., Gervasini G., Ghani Z., Ghezzi F. M., Ghillardi G., Giannone L., Gibson S., Gil L., Gillgren A., Giovannozzi E., Giroud C., Giruzzi G., Gleiter T., Gobbin M., Goloborodko V., Ganzabal A. G., Goodman T., Gopakumar V., Gorini G., Gorler T., Gorno S., Granucci G., Greenhouse D., Grenfell G., Griener M., Gromelski W., Groth M., Grover O., Gruca M., Gude A., Guillemaut C., Guirlet R., Gunn J., Gyergyek T., Hagg L., Hall J., Ham C. J., Hamed M., Happel T., Harrer G., Harrison J., Harting D., Hawkes N. C., Heinrich P., Henderson S., Hennequin P., Henriques R., Heuraux S., Salaverri J. H., Hillairet J., Hillesheim J. C., Hjalmarsson A., Ho A., Hobirk J., Hodille E., Holzl M., Hoppe M., Horacek J., Horsten N., Horvath L., Houry M., Hromasova K., Huang J., Huang Z., Huber A., Huett E., Huynh P., Iantchenko A., Imrisek M., Innocente P., Schrittwieser C. I., Isliker H., Ivanova P., Stanik I. I., Jablczynska M., Jachmich S., Jacobsen A. S., Jacquet P., van Vuuren A. J., Jardin A., Jarleblad H., Jarvinen A., Jaulmes F., Jensen T., Jepu I., Jessica S., Johnson T., Juven A., Kalis J., Karhunen J., Karimov R., Karpushov A. N., Kasilov S., Kazakov Y., Kazantzidis P. V., Kernbichler W., Kim H. T., King D. B., Kiptily V. G., Kirjasuo A., Kirov K. K., Kirschner A., Kit A., Kiviniemi T., Kjaer F., Klinkby E., Knieps A., Knoche U., Kochan M., Kochl F., Kocsis G., Koenders J. T. W., Kogan L., Kolesnichenko Y., Kominis Y., Komm M., Kong M., Kool B., Korsholm S. B., Kos D., Koubiti M., Kovacic J., Kovtun Y., Strzeciwilk E. K., Koziol K., Kozulia M., Flecken A. K., Kreter A., Krieger K., Kruezi U., Krutkin O., Kudlacek O., Kumar U., Kumpulainen H., Kushoro M. H., Kwiatkowski R., La Matina M., Lacquaniti M., Laguardia L., Lainer P., Lang P., Larsen M., Laszynska E., Lawson K. D., Lazaros A., Lazzaro E., Lee M. Y. K., Leerink S., Lehnen M., Lennholm M., Lerche E., Liang Y., Lier A., Likonen J., Linder O., Lipschultz B., Listopad A., Litaudon X., Smith E. L., Liuzza D., Loarer T., Lomas P. J., Lombardo J., Lonigro N., Lorenzini R., Lowry C., di Cortemiglia T. L., Ludvig Osipov A., Lunt T., Lutsenko V., Macusova E., Maenpaa R., Maget P., Maggi C. F., Mailloux J., Makarov S., Malinowski K., Manas P., Mancini A., Mancini D., Mantica P., Mantsinen M., Manyer J., Maraschek M., Marceca G., Marcer G., Marchetto C., Marchioni S., Mariani A., Marin M., Markl M., Markovic T., Marocco D., Marsden S., Martellucci L., Martin P., Martin C., Martinelli F., Martinelli L., Solis J. R. M., Martone R., Maslov M., Masocco R., Mattei M., Matthews G. 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J., Cseh G., Czarski T., Da Ros A., Dal Molin A., Dalla Rosa M., Damizia Y., D'Arcangelo O., David P., De Angeli M., De la Cal E., De La Luna E., De Tommasi G., Decker J., Dejarnac R., Del Sarto D., Derks G., Desgranges C., Devynck P., Di Genova S., di Grazia L. E., Di Siena A., Dicorato M., Diez M., Dimitrova M., Dittmar T., Dittrich L., Palacios Duran J. J. D., Donnel P., Douai D., Dowson S., Doyle S., Dreval M., Drews P., Dubus L., Dumont R., Dunai D., Dunne M., Durif A., Durodie F., Durr Legoupil Nicoud G., Duval B., Dux R., Eich T., Ekedahl A., Elmore S., Ericsson G., Eriksson J., Eriksson B., Eriksson F., Ertmer S., Escarguel A., Esposito B., Estrada T., Fable E., Faitsch M., Fakhrayi Mofrad N., Fanni A., Farley T., Farnik M., Fedorczak N., Felici F., Feng X., Ferreira J., Ferreira D., Ferron N., Fevrier O., Ficker O., Field A. R., Figueiredo A., Fil N., Fiorucci D., Firdaouss M., Fischer R., Fitzgerald M., Flebbe M., Fontana M., Climent J. F., Frank A., Fransson E., Frassinetti L., Frigione D., Futatani S., Futtersack R., Gabriellini S., Gadariya D., Galassi D., Galazka K., Galdon J., Galeani S., Gallart D., Gallo A., Galperti C., Gambrioli M., Garavaglia S., Garcia J., Munoz M. G., Gardarein J., Garzotti L., Gaspar J., Gatto R., Gaudio P., Gelfusa M., Gerardin J., Gerasimov S. N., Miguelanez R. G., Gervasini G., Ghani Z., Ghezzi F. M., Ghillardi G., Giannone L., Gibson S., Gil L., Gillgren A., Giovannozzi E., Giroud C., Giruzzi G., Gleiter T., Gobbin M., Goloborodko V., Ganzabal A. G., Goodman T., Gopakumar V., Gorini G., Gorler T., Gorno S., Granucci G., Greenhouse D., Grenfell G., Griener M., Gromelski W., Groth M., Grover O., Gruca M., Gude A., Guillemaut C., Guirlet R., Gunn J., Gyergyek T., Hagg L., Hall J., Ham C. J., Hamed M., Happel T., Harrer G., Harrison J., Harting D., Hawkes N. C., Heinrich P., Henderson S., Hennequin P., Henriques R., Heuraux S., Salaverri J. H., Hillairet J., Hillesheim J. C., Hjalmarsson A., Ho A., Hobirk J., Hodille E., Holzl M., Hoppe M., Horacek J., Horsten N., Horvath L., Houry M., Hromasova K., Huang J., Huang Z., Huber A., Huett E., Huynh P., Iantchenko A., Imrisek M., Innocente P., Schrittwieser C. I., Isliker H., Ivanova P., Stanik I. I., Jablczynska M., Jachmich S., Jacobsen A. S., Jacquet P., van Vuuren A. J., Jardin A., Jarleblad H., Jarvinen A., Jaulmes F., Jensen T., Jepu I., Jessica S., Johnson T., Juven A., Kalis J., Karhunen J., Karimov R., Karpushov A. N., Kasilov S., Kazakov Y., Kazantzidis P. V., Kernbichler W., Kim H. T., King D. B., Kiptily V. G., Kirjasuo A., Kirov K. K., Kirschner A., Kit A., Kiviniemi T., Kjaer F., Klinkby E., Knieps A., Knoche U., Kochan M., Kochl F., Kocsis G., Koenders J. T. W., Kogan L., Kolesnichenko Y., Kominis Y., Komm M., Kong M., Kool B., Korsholm S. B., Kos D., Koubiti M., Kovacic J., Kovtun Y., Strzeciwilk E. K., Koziol K., Kozulia M., Flecken A. K., Kreter A., Krieger K., Kruezi U., Krutkin O., Kudlacek O., Kumar U., Kumpulainen H., Kushoro M. H., Kwiatkowski R., La Matina M., Lacquaniti M., Laguardia L., Lainer P., Lang P., Larsen M., Laszynska E., Lawson K. D., Lazaros A., Lazzaro E., Lee M. Y. K., Leerink S., Lehnen M., Lennholm M., Lerche E., Liang Y., Lier A., Likonen J., Linder O., Lipschultz B., Listopad A., Litaudon X., Smith E. L., Liuzza D., Loarer T., Lomas P. J., Lombardo J., Lonigro N., Lorenzini R., Lowry C., di Cortemiglia T. L., Ludvig Osipov A., Lunt T., Lutsenko V., Macusova E., Maenpaa R., Maget P., Maggi C. F., Mailloux J., Makarov S., Malinowski K., Manas P., Mancini A., Mancini D., Mantica P., Mantsinen M., Manyer J., Maraschek M., Marceca G., Marcer G., Marchetto C., Marchioni S., Mariani A., Marin M., Markl M., Markovic T., Marocco D., Marsden S., Martellucci L., Martin P., Martin C., Martinelli F., Martinelli L., Solis J. R. M., Martone R., Maslov M., Masocco R., Mattei M., Matthews G. F., Matveev D., Matveeva E., Mayoral M. L., Mazon D., Mazzi S., Mazzotta C., McArdle G., McDermott R., McKay K., Meigs A. G., Meineri C., Mele A., Menkovski V., Menmuir S., Merle A., Meyer H., Michalik K. M., Milanesio D., Militello F., Milocco A., Miron I. G., Mitchell J., Mitteau R., Mitterauer V., Mlynar J., Moiseenko V., Molna P., Mombelli F., Monti C., Montisci A., Morales J., Moreau P., Moret J. M., Moro A., Moulton D., Mulholland P., Muraglia M., Murari A., Muraro A., Muscente P., Mykytchuk D., Nabais F., Nakeva Y., Napoli F., Nardon E., Nave M. F., Nem R. D., Nielsen A., Nielsen S. K., Nocente M., Nouailletas R., Nowak S., Nystrom H., Ochoukov R., Offeddu N., Olasz S., Olde C., Oliva F., Oliveira D., Oliver H. J. C., Ollus P., Ongena J., Orsitto F. P., Osborne N., Otin R., Dominguez P. O., Palade D. I., Palomba S., Pan O., Panadero N., Panontin E., Papadopoulos A., Papagiannis P., Papp G., Parail V. V., Pardanaud C., Parisi J., Parrott A., Paschalidis K., Passoni M., Pastore F., Patel A., Patel B., Pau A., Pautasso G., Pavlichenko R., Pawelec E., Pegourie B., Pelka G., Peluso E., Perek A., Cippo E. P., Von Thun C. P., Petersson P., Petravich G., Peysson Y., Piergotti V., Pigatto L., Piron C., Piron L., Pironti A., Pisano F., Plank U., Ploeckl B., Plyusnin V., Podolnik A., Poels Y., Pokol G., Poley J., Por G., Poradzinski M., Porcelli F., Porte L., Possieri C., Poulsen A., Predebon I., Pucella G., Pueschel M., Puglia P., Putignano O., Putterich T., Quadri V., Quercia A., Rabinski M., Radovanovic L., Ragona R., Raj H., Rasinski M., Rasmussen J., Ratta G., Ratynskaia S., Rayaprolu R., Rebai M., Redl A., Rees D., Refy D., Reich M., Reimerdes H., Reman B. C. G., Renders O., Reux C., Ricci D., Richou M., Rienacker S., Rigamonti D., Rigollet F., Rimini F. G., Ripamonti D., Rispoli N., Rivals N., Rodriguez J. F. R., Roach C., Rocchi G., Rode S., Rodrigues P., Romazanov J., Madrid C. F. R., Rosato J., Rossi R., Rubino G., Rueda J. R., Ruiz J. R., Ryan P., Ryan D., Saarelma S., Sabot R., Salewski M., Salmi A., Sanchis L., Sand A., Santos J., Sarkimaki K., Sassano M., Sauter O., Schettini G., Schmuck S., Schneider P., Schoonheere N., Schramm R., Schrittwieser R., Schuster C., Schwarz N., Sciortino F., D Abusco M. S., Scully S., Selce A., Senni L., Senstius M., Sergienko G., Sharapov S. E., Sharma R., Shaw A., Sheikh U., Sias G., Sieglin B., Silburn S. A., Silva C., Silva A., Silvagni D., Schmidt B. S., Simons L., Simpson J., Singh L., Sipila S., Siusko Y., Smith S., Snicker A., Solano E. R., Solokha V., Sos M., Sozzi C., Spineanu F., Spizzo G., Spolaore M., Spolladore L., Srinivasan C., Stagni A., Stancar Z., Stankunas G., Stober J., Strand P., Stuart C. I., Subba F., Sun G. Y., Sun H. J., Suttrop W., Svoboda J., Szepesi T., Szepesi G., Tal B., Tala T., Tamain P., Tardini G., Tardocchi M., Taylor D., Telesca G., Tenaglia A., Terra A., Terranova D., Testa D., Theiler C., Tholerus E., Thomas B., Thoren E., Thornton A., Thrysoe A., Tichit Q., Tierens W., Titarenko A., Tolias P., Tomasina E., Tomes M., Tonello E., Tookey A., Jimenez M. T., Tsironis C., Tsui C., Tykhyy A., Ugoletti M., Usoltseva M., Valcarcel D. F., Valentini A., Valisa M., Vallar M., Valovic M., Valvis S. I., van Berkel M., Van Eester D., Van Mulders S., van Rossem M., Vann R., Vanovac B., Rodriguez J. V., Varje J., Vartanian S., Vecsei M., Gallardo L. V., Veranda M., Verdier T., Verdoolaege G., Verhaegh K., Vermare L., Rinati G. V., Vicente J., Viezzer E., Vignitchouk L., Villone F., Vincent B., Vincenzi P., Vlad M. O., Vogel G., Voitsekhovitch I., Voldiner I., Vondracek P., Vu N. M. T., Vuoriheimo T., Wade C., Wang E., Wauters T., Weiland M., Weisen H., Wendler N., Weston D., Widdowson A., Wiesen S., Wiesenberger M., Wijkamp T., Willensdorfer M., Wilson T., Wojenski A., Wuethrich C., Wyss I., Xiang L., Xu S., Yadykin D., Yakovenko Y., Yang H., Yanovskiy V., Yi R., Zaar B., Zadvitskiy G., Zakharov L., Zanca P., Zarzoso D., Zayachuk Y., Zebrowski J., Zerbini M., Zestanakis P., Zimmermann C. F. B., Zlobinski M., Zohar A., Zotta V. K., Zou X., Zuin M., Zurita M., and Zychor I.

Abstract

Within the 9th European Framework programme, since 2021 EUROfusion is operating five tokamaks under the auspices of a single Task Force called ‘Tokamak Exploitation’. The goal is to benefit from the complementary capabilities of each machine in a coordinated way and help in developing a scientific output scalable to future largre machines. The programme of this Task Force ensures that ASDEX Upgrade, MAST-U, TCV, WEST and JET (since 2022) work together to achieve the objectives of Missions 1 and 2 of the EUROfusion Roadmap: i) demonstrate plasma scenarios that increase the success margin of ITER and satisfy the requirements of DEMO and, ii) demonstrate an integrated approach that can handle the large power leaving ITER and DEMO plasmas. The Tokamak Exploitation task force has therefore organized experiments on these two missions with the goal to strengthen the physics and operational basis for the ITER baseline scenario and for exploiting the recent plasma exhaust enhancements in all four devices (PEX: Plasma EXhaust) for exploring the solution for handling heat and particle exhaust in ITER and develop the conceptual solutions for DEMO. The ITER Baseline scenario has been developed in a similar way in ASDEX Upgrade, TCV and JET. Key risks for ITER such as disruptions and run-aways have been also investigated in TCV, ASDEX Upgrade and JET. Experiments have explored successfully different divertor configurations (standard, super-X, snowflakes) in MAST-U and TCV and studied tungsten melting in WEST and ASDEX Upgrade. The input from the smaller devices to JET has also been proven successful to set-up novel control schemes on disruption avoidance and detachment.

Published

2024

6. Detection of alpha heating in JET-ILW DT plasmas by a study of the electron temperature response to ICRH modulation

Author

Mantica, P, Auriemma, F, Casiraghi, I, Gallart, D, Kirov, K, Lerche, E, Salmi, A, Dal Molin, A, Delabie, E, Eriksson, J, Garcia, J, Huynh, P, Jacquet, P, Jonsson, T, Kiptily, V, Litherland–smith, E, Maggi, C, Mantsinen, M, Marcer, G, Maslov, M, Menmuir, S, Nocente, M, Peluso, E, Pucella, G, Rigamonti, D, Stancar, Z, Sun, H, Szepesi, G, Tardocchi, M, Van Eester, D, Null, N, Mantica, P., Auriemma, F., Casiraghi, I., Gallart, D., Kirov, K., Lerche, E., Salmi, A., Dal Molin, A., Delabie, E., Eriksson, J., Garcia, J., Huynh, P., Jacquet, P., Jonsson, T., Kiptily, V., Litherland–Smith, E., Maggi, C. F., Mantsinen, M., Marcer, G., Maslov, M., Menmuir, S., Nocente, M., Peluso, E., Pucella, G., Rigamonti, D., Stancar, Z., Sun, H., Szepesi, G., Tardocchi, M., Van Eester, D., null, null, Mantica, P, Auriemma, F, Casiraghi, I, Gallart, D, Kirov, K, Lerche, E, Salmi, A, Dal Molin, A, Delabie, E, Eriksson, J, Garcia, J, Huynh, P, Jacquet, P, Jonsson, T, Kiptily, V, Litherland–smith, E, Maggi, C, Mantsinen, M, Marcer, G, Maslov, M, Menmuir, S, Nocente, M, Peluso, E, Pucella, G, Rigamonti, D, Stancar, Z, Sun, H, Szepesi, G, Tardocchi, M, Van Eester, D, Null, N, Mantica, P., Auriemma, F., Casiraghi, I., Gallart, D., Kirov, K., Lerche, E., Salmi, A., Dal Molin, A., Delabie, E., Eriksson, J., Garcia, J., Huynh, P., Jacquet, P., Jonsson, T., Kiptily, V., Litherland–Smith, E., Maggi, C. F., Mantsinen, M., Marcer, G., Maslov, M., Menmuir, S., Nocente, M., Peluso, E., Pucella, G., Rigamonti, D., Stancar, Z., Sun, H., Szepesi, G., Tardocchi, M., Van Eester, D., and null, null

Published

2024

7. A unified model of density limit in fusion plasmas

Author

Zanca, P., Sattin, F., Escande, D. F., Pucella, G., and Tudisco, O.

Subjects

Physics - Plasma Physics

Abstract

A limit for the edge density, ruled by radiation losses from light impurities, is established by a minimal cylindrical magneto-thermal equilibrium model. For ohmic tokamak and reversed field pinch the limit scales linearly with the plasma current, as the empirical Greenwald limit. The auxiliary heating adds a further dependence, scaling with the 0.4 power, in agreement with L-mode tokamak experiments. For a purely externally heated configuration the limit takes on a Sudo-like form, depending mainly on the input power, and is compatible with recent Stellarator scalings.

Published

2016

8. CVD diamond photodetectors for FTU plasma diagnostics

Author

Cesaroni, S., Angelone, M., Apruzzese, G., Bombarda, F., Gabellieri, L., Marinelli, M., Milani, E., Palomba, S., Pucella, G., Romano, A., Verona, C., Verona-Rinati, G., Centioli, C., Grosso, A., Piergotti, V., Rocchi, G., Sibio, A., and Tilia, B.

Published

2021

9. Runaway Electron Control in FTU

Author

Carnevale, D., Esposito, B., Gospodarczyk, M., Boncagni, L., Sassano, M., Galeani, S., Marocco, D., Panaccione, L., Tudisco, O., Bin, W., Cianfarani, C., Ferrò, G., Granucci, G., Gabrielli, A., Maddaluno, C., Martìn-Solìs, J. R., Popovic, Z., Martinelli, F., Pucella, G., Ramogida, G., Riva, M., and Team, FTU

Subjects

Physics - Plasma Physics

Abstract

Experimental results on the position and current control of disruption generated runaway electrons (RE) in FTU are presented. A scanning interferometer diagnostic has been used to analyze the time evolution of the RE beam radial position and its instabilities. Correspondence of the interferometer time traces, radial profile reconstructed via magnetic measurements and fission chamber signals are discussed. New RE control algorithms, which define in real-time updated plasma current and position references, have been tested in two experimental scenarios featuring disruption generated RE plateaus. Comparative studies among 52 discharges with disruption generated RE beam plateaus are presented in order to assess the effectiveness of the proposed control strategies as the RE beam interaction with the plasma facing components is reduced while the current is ramped-down.

Published

2015

10. Improved Confinement in JET High {beta} Plasmas with an ITER-Like Wall

Author

Challis, C. D., Garcia, J., Beurskens, M., Buratti, P., Delabie, E., Drewelow, P., Frassinetti, L., Giroud, C., Hawkes, N., Hobirk, J., Joffrin, E., Keeling, D., King, D. B., Maggi, C. F., Mailloux, J., Marchetto, C., McDonald, D., Nunes, I., Pucella, G., Saarelma, S., and Simpson, J.

Subjects

Physics - Plasma Physics

Abstract

The replacement of the JET carbon wall (C-wall) by a Be/W ITER-like wall (ILW) has affected the plasma energy confinement. To investigate this, experiments have been performed with both the C-wall and ILW to vary the heating power over a wide range for plasmas with different shapes., Comment: 50 pages, 32 figures. This is an author-created, un-copyedited version of an article submitted for publication in Nuclear Fusion. IoP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it

Published

2015

11. Overview of T and D-T results in JET with ITER-like wall

Author

Maggi, C.F., Abate, D., Abid, N., Abreu, P., Adabonyan, O., Afzal, M., Ahmad, I., Akhtar, M., Albanese, R., Aleiferis, S., Alessi, E., Aleynikov, P., Alguacil, J., Alhage, J., Ali, M., Allen, H., Allinson, M., Alonzo, M., Alves, E., Ambrosino, R., Andersson Sundén, E., Andrew, P., Angelone, M., Angioni, C., Antoniou, I., Appel, L., Appelbee, C., Aramunde, C., Ariola, M., Arnoux, G., Artaserse, G., Artaud, J. F., Arter, W., Artigues, V., Artola, F. J., Ash, A., Asztalos, O., Auld, D., Auriemma, F., Austin, Y., Avotina, L., Ayllón, J., Aymerich, E., Baciero, A., Bähner, L., Bairaktaris, F., Balboa, I., Balden, M., Balshaw, N., Bandaru, V. K., Banks, J., Banon Navarro, A., Barcellona, C., Bardsley, O., Barnes, M., Barnsley, R., Baruzzo, M., Bassan, M., Batista, A., Batistoni, P., Baumane, L., Bauvir, B., Baylor, L., Bearcroft, C., Beaumont, P., Beckett, D., Begolli, A., Beidler, M., Bekris, N., Beldishevski, M., Belli, E., Belli, F., Benkadda, S., Bentley, J., Bernard, E., Bernardo, J., Bernert, M., Berry, M., Bertalot, L., Betar, H., Beurskens, M., Bhat, P. G., Bickerton, S., Bielecki, J., Biewer, T., Bilato, R., Bílková, P., Birkenmeier, G., Bisson, R., Bizarro, J. P.S., Blatchford, P., Bleasdale, A., Bobkov, V., Boboc, A., Bock, A., Bodnar, G., Bohm, P., Bonalumi, L., Bonanomi, N., Bonfiglio, D., Bonnin, X., Bonofiglo, P., Booth, J., Borba, D., Borodin, D., Borodkina, I., Bosman, T.O.S.J., Bourdelle, C., Bowden, M., Božičević Mihalić, I., Bradnam, S. C., Breizman, B., Brezinsek, S., Brida, D., Brix, M., Brown, P., Brunetti, D., Buckley, M., Buermans, J., Bufferand, H., Buratti, P., Burckhart, A., Burgess, A., Buscarino, A., Busse, A., Butcher, D., Calabrò, G., Calacci, L., Calado, R., Canavan, R., Cannas, B., Cannon, M., Cappelli, M., Carcangiu, S., Card, P., Cardinali, A., Carli, S., Carman, P., Carnevale, D., Carvalho, B., Carvalho, I. S., Carvalho, P., Casiraghi, I., Casson, F. J., Castaldo, C., Catalan, J. P., Catarino, N., Causa, F., Cavedon, M., Cecconello, M., Ceelen, L., Challis, C. D., Chamberlain, B., Chandra, R., Chang, C. S., Chankin, A., Chapman, B., Chauhan, P., Chernyshova, M., Chiariello, A., Chira, G. C., Chmielewski, P., Chomiczewska, A., Chone, L., Cieslik, J., Ciraolo, G., Ciric, D., Citrin, J., Ciupinski, Clarkson, R., Cleverly, M., Coates, P., Coccorese, V., Coelho, R., Coenen, J. W., Coffey, I. H., Colangeli, A., Colas, L., Collins, J., Conroy, S., Contré, C., Conway, N. J., Coombs, D., Cooper, P., Cooper, S., Cordaro, L., Corradino, C., Corre, Y., Corrigan, G., Coster, D., Craciunescu, T., Cramp, S., Craven, D., Craven, R., Croci, G., Croft, D., Crombé, K., Cronin, T., Cruz, N., Cufar, A., Cullen, A., Dal Molin, A., Dalley, S., David, P., Davies, A., Davies, J., Davies, S., Davis, G., Dawson, K., Dawson, S., Day, I., De Tommasi, G., Deane, J., Dearing, M., De Bock, M., Decker, J., Dejarnac, R., Delabie, E., de la Cal, E., de la Luna, E., Del Sarto, D., Dempsey, A., Deng, W., Dennett, A., Derks, G.L., De Temmerman, G., Devasagayam, F., de Vries, P., Devynck, P., di Siena, A., Dickinson, D., Dickson, T., Diez, M., Dinca, P., Dittmar, T., Dittrich, L., Dobrashian, J., Dochnal, T., Donné, A.J.H., Dorland, W., Dorling, S., Dormido-Canto, S., Dotse, R., Douai, D., Dowson, S., Doyle, R., Dreval, M., Drews, P., Drummond, G., Duckworth, Ph, Dudding, H. G., Dumont, R., Dumortier, P., Dunai, D., Dunatov, T., Dunne, M., Ďuran, I., Durodié, F., Dux, R., Eade, T., Eardley, E., Edwards, J., Eich, T., Eksaeva, A., El-Haroun, H., Ellis, R. D., Ellwood, G., Elsmore, C., Emery, S., Ericsson, G., Eriksson, B., Eriksson, F., Eriksson, J., Eriksson, L. G., Ertmer, S., Evans, G., Evans, S., Fable, E., Fagan, D., Faitsch, M., Fajardo Jimenez, D., Falessi, M., Fanni, A., Farmer, T., Farquhar, I., Faugeras, B., Fazinić, S., Fedorczak, N., Felker, K., Felton, R., Fernandes, H., Ferreira, D. R., Ferreira, J., Ferrò, G., Fessey, J., Février, O., Ficker, O., Field, A. R., Figueiredo, A., Figueiredo, J., Fil, A., Fil, N., Finburg, P., Fischer, U., Fishpool, G., Fittill, L., Fitzgerald, M., Flammini, D., Flanagan, J., Foley, S., Fonnesu, N., Fontana, M., Fontdecaba, J. M., Fortuna, L., Fortuna-Zalesna, E., Fortune, M., Fowler, C., Fox, P., Franklin, O., Fransson, E., Frassinetti, L., Fresa, R., Frigione, D., Fülöp, T., Furseman, M., Gabriellini, S., Gadariya, D., Gadgil, S., Gál, K., Galeani, S., Galkowski, A., Gallart, D., Gambrioli, M., Gans, T., Garcia, J., García-Mun͂oz, M., Garzotti, L., Gaspar, J., Gatto, R., Gaudio, P., Gear, D., Gebhart, T., Gee, S., Gelfusa, M., George, R., Gerasimov, S. N., Gerru, R., Gervasini, G., Gethins, M., Ghani, Z., Gherendi, M., Gherghina, P. I., Ghezzi, F., Giacomelli, L., Gibson, C., Gil, L., Gilbert, M. R., Gillgren, A., Giovannozzi, E., Giroud, C., Giruzzi, G., Goff, J., Goloborodko, V., Gomes, R., Gomez, J. F., Gonçalves, B., Goniche, M., Gonzalez-Martin, J., Goodyear, A., Gore, S., Gorini, G., Görler, T., Gotts, N., Gow, E., Graves, J. P., Green, J., Greuner, H., Grigore, E., Griph, F., Gromelski, W., Groth, M., Grove, C., Grove, R., Gupta, N., Hacquin, S., Hägg, L., Hakola, A., Halitovs, M., Hall, J., Ham, C. J., Hamed, M., Hardman, M. R., Haresawa, Y., Harrer, G., Harrison, J. R., Harting, D., Hatch, D. R., Haupt, T., Hawes, J., Hawkes, N. C., Hawkins, J., Hazael, S., Hearmon, J., Heesterman, P., Heinrich, P., Held, M., Helou, W., Hemming, O., Henderson, S. S., Henriques, R., Henriques, R. B., Hepple, D., Herfindal, J., Hermon, G., Hillesheim, J. C., Hizanidis, K., Hjalmarsson, A., Ho, A., Hobirk, J., Hoenen, O., Hogben, C., Hollingsworth, A., Hollis, S., Hollmann, E., Hölzl, M., Hook, M., Hoppe, M., Horáček, J., Horsten, N., Horton, A., Horton, L. D., Horvath, L., Hotchin, S., Hu, Z., Huang, Z., Hubenov, E., Huber, A., Huber, V., Huddleston, T., Huijsmans, G. T.A., Husain, Y., Huynh, P., Hynes, A., Iglesias, D., Iliasova, M. V., Imríšek, M., Ingleby, J., Innocente, P., Ioannou-Sougleridis, V., Isernia, N., Ivanova-Stanik, I., Ivings, E., Jachmich, S., Jackson, T., Jacobsen, A. S., Jacquet, P., Järleblad, H., Järvinen, A., Jaulmes, F., Jayasekera, N., Jenko, F., Jepu, I., Joffrin, E., Johnson, T., Johnston, J., Jones, C., Jones, E., Jones, G., Jones, L., Jones, T. T.C., Joyce, A., Juvonen, M., Kallenbach, A., Kalnina, P., Kalupin, D., Kanth, P., Kantor, A., Kappatou, A., Kardaun, O., Karhunen, J., Karsakos, E., Kazakov, Ye O., Kazantzidis, V., Keeling, D. L., Kelly, W., Kempenaars, M., Kennedy, D., Khan, K., Khilkevich, E., Kiefer, C., Kim, H. T., Kim, J., Kim, S. H., King, D. B., Kinna, D. J., Kiptily, V. G., Kirjasuo, A., Kirov, K. K., Kirschner, A., Kiviniemi, T., Kizane, G., Klepper, C., Klix, A., Kneale, G., Knight, M., Knight, P., Knights, R., Knipe, S., Knoche, U., Knolker, M., Kocan, M., Köchl, F., Kocsis, G., Koenders, J.T.W., Kolesnichenko, Y., Kominis, Y., Kong, M., Kool, B., Korovin, V., Korsholm, S. B., Kos, B., Kos, D., Koubiti, M., Kovtun, Y., Kowalska-Strzęciwilk, E., Koziol, K., Krasikov, Y., Krasilnikov, A., Krasilnikov, V., Kresina, M., Kreter, A., Krieger, K., Krivska, A., Kruezi, U., Książek, I., Kumpulainen, H., Kurzan, B., Kwak, S., Kwon, O. J., Labit, B., Lacquaniti, M., Lagoyannis, A., Laguardia, L., Laing, A., Laksharam, V., Lam, N., Lambertz, H. T., Lane, B., Langley, M., Lascas Neto, E., Łaszyńska, E., Lawson, K. D., Lazaros, A., Lazzaro, E., Learoyd, G., Lee, C., Lee, K., Leerink, S., Leeson, T., Lefebvre, X., Leggate, H. J., Lehmann, J., Lehnen, M., Leichtle, D., Leipold, F., Lengar, I., Lennholm, M., Leon Gutierrez, E., Leppin, L. A., Lerche, E., Lescinskis, A., Lesnoj, S., Lewin, L., Lewis, J., Likonen, J., Linsmeier, Ch, Litaudon, X., Litherland-Smith, E., Liu, F., Loarer, T., Loarte, A., Lobel, R., Lomanowski, B., Lomas, P. J., Lombardo, J., Lorenzini, R., Loreti, S., Loschiavo, V. P., Loughlin, M., Lowe, T., Lowry, C., Luce, T., Lucock, R., Luda Di Cortemiglia, T., Lungaroni, M., Lungu, C. P., Lunt, T., Lutsenko, V., Lyons, B., Macdonald, J., Macusova, E., Mäenpää, R., Maier, H., Mailloux, J., Makarov, S., Manas, P., Manning, A., Mantica, P., Mantsinen, M. J., Manyer, J., Manzanares, A., Maquet, Ph, Maraschek, M., Marceca, G., Marcer, G., Marchetto, C., Marchuk, O., Mariani, A., Mariano, G., Marin, M., Marin Roldan, A., Marinelli, M., Markovič, T., Marot, L., Marren, C., Marsden, S., Marsen, S., Marsh, J., Marshall, R., Martellucci, L., Martin, A. J., Martin, C., Martone, R., Maruyama, S., Maslov, M., Mattei, M., Matthews, G. F., Matveev, D., Matveeva, E., Mauriya, A., Maviglia, F., Mayer, M., Mayoral, M. L., Mazzi, S., Mazzotta, C., McAdams, R., McCarthy, P. J., McCullen, P., McDermott, R., McDonald, D. C., McGuckin, D., McKay, V., McNamee, L., McShee, A., Mederick, D., Medland, M., Medley, S., Meghani, K., Meigs, A. G., Meitner, S., Menmuir, S., Mergia, K., Mianowski, S., Middleton, P., Mietelski, J., Mikszuta-Michalik, K., Milanesio, D., Milani, E., Militello-Asp, E., Militello, F., Milnes, J., Milocco, A., Minucci, S., Miron, I., Mitchell, J., Mlynář, J., Moiseenko, V., Monaghan, P., Monakhov, I., Montisci, A., Moon, S., Mooney, R., Moradi, S., Morales, R. B., Morgan, L., Moro, F., Morris, J., Mrowetz, T., Msero, L., Munot, S., Mun͂oz-Perez, A., Muraglia, M., Murari, A., Muraro, A., N’Konga, B., Na, Y. S., Nabais, F., Naish, R., Napoli, F., Nardon, E., Naulin, V., Nave, M. F.F., Neu, R., Ng, S., Nicassio, M., Nicolai, D., Nielsen, A. H., Nielsen, S. K., Nina, D., Noble, C., Nobs, C. R., Nocente, M., Nordman, H., Nowak, S., Nyström, H., O’Callaghan, J., O’Mullane, M., O’Neill, C., Olde, C., Oliver, H. J.C., Olney, R., Ongena, J., Orsitto, G. P., Osipov, A., Otin, R., Pace, N., Packer, L. W., Pajuste, E., Palade, D., Palgrave, J., Pan, O., Panadero, N., Pandya, T., Panontin, E., Papadopoulos, A., Papadopoulos, G., Papp, G., Parail, V. V., Parsloe, A., Paschalidis, K., Passeri, M., Patel, A., Pau, A., Pautasso, G., Pavlichenko, R., Pavone, A., Pawelec, E., Paz-Soldan, C., Peacock, A., Pearce, M., Pearson, I. J., Peluso, E., Penot, C., Pepperell, K., Perdas, A., Pereira, T., Perelli Cippo, E., Perez von Thun, C., Perry, D., Petersson, P., Petravich, G., Petrella, N., Peyman, M., Pigatto, L., Pillon, M., Pinches, S., Pintsuk, G., Piron, C., Pironti, A., Pisano, F., Pitts, R., Planck, U., Platt, N., Plyusnin, V., Podesta, M., Pokol, G., Poli, F. M., Pompilian, O. G., Poradzinski, M., Porkolab, M., Porosnicu, C., Poulipoulis, G., Poulsen, A. S., Predebon, I., Previti, A., Primetzhofer, D., Provatas, G., Pucella, G., Puglia, P., Purahoo, K., Putignano, O., Pütterich, T., Quercia, A., Radulescu, G., Radulovic, V., Ragona, R., Rainford, M., Raj, P., Rasinski, M., Rasmussen, D., Rasmussen, J. J., Raso, A., Rattá, G., Ratynskaia, S., Rayaprolu, R., Rebai, M., Redl, A., Rees, D., Réfy, D., Reichle, R., Reimerdes, H., Reman, B. C.G., Reux, C., Reynolds, S., Rigamonti, D., Righi, E., Rimini, F. G., Risner, J., Rivero-Rodriguez, J. F., Roach, C. M., Roberts, J., Robins, R., Robinson, S., Robson, D., Rode, S., Rodrigues, P., Rodriguez-Fernandez, P., Romanelli, S., Romazanov, J., Rose, E., Rose-Innes, C., Rossi, R., Rowe, S., Rowlands, D., Rowley, C., Rubel, M., Rubinacci, G., Rubino, G., Rud, M., Ruiz Ruiz, J., Ryter, F., Saarelma, S., Sahlberg, A., Salewski, M., Salmi, A., Salmon, R., Salzedas, F., Sanchez, F., Sanders, I., Sandiford, D., Sanni, F., Sauter, O., Sauvan, P., Schettini, G., Shevelev, A., Schekochihin, A. 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J., Zakharov, L., Zanca, P., Zarins, A., Zarzoso Fernandez, D., Zastrow, K. D., Zayachuk, Y., Zerbini, M., Zhang, W., Zimmermann, B., Zlobinski, M., Zocco, A., Zotta, V. K., Zuin, M., Zwingmann, W., Zychor, I., Maggi, C.F., Abate, D., Abid, N., Abreu, P., Adabonyan, O., Afzal, M., Ahmad, I., Akhtar, M., Albanese, R., Aleiferis, S., Alessi, E., Aleynikov, P., Alguacil, J., Alhage, J., Ali, M., Allen, H., Allinson, M., Alonzo, M., Alves, E., Ambrosino, R., Andersson Sundén, E., Andrew, P., Angelone, M., Angioni, C., Antoniou, I., Appel, L., Appelbee, C., Aramunde, C., Ariola, M., Arnoux, G., Artaserse, G., Artaud, J. F., Arter, W., Artigues, V., Artola, F. J., Ash, A., Asztalos, O., Auld, D., Auriemma, F., Austin, Y., Avotina, L., Ayllón, J., Aymerich, E., Baciero, A., Bähner, L., Bairaktaris, F., Balboa, I., Balden, M., Balshaw, N., Bandaru, V. K., Banks, J., Banon Navarro, A., Barcellona, C., Bardsley, O., Barnes, M., Barnsley, R., Baruzzo, M., Bassan, M., Batista, A., Batistoni, P., Baumane, L., Bauvir, B., Baylor, L., Bearcroft, C., Beaumont, P., Beckett, D., Begolli, A., Beidler, M., Bekris, N., Beldishevski, M., Belli, E., Belli, F., Benkadda, S., Bentley, J., Bernard, E., Bernardo, J., Bernert, M., Berry, M., Bertalot, L., Betar, H., Beurskens, M., Bhat, P. G., Bickerton, S., Bielecki, J., Biewer, T., Bilato, R., Bílková, P., Birkenmeier, G., Bisson, R., Bizarro, J. P.S., Blatchford, P., Bleasdale, A., Bobkov, V., Boboc, A., Bock, A., Bodnar, G., Bohm, P., Bonalumi, L., Bonanomi, N., Bonfiglio, D., Bonnin, X., Bonofiglo, P., Booth, J., Borba, D., Borodin, D., Borodkina, I., Bosman, T.O.S.J., Bourdelle, C., Bowden, M., Božičević Mihalić, I., Bradnam, S. C., Breizman, B., Brezinsek, S., Brida, D., Brix, M., Brown, P., Brunetti, D., Buckley, M., Buermans, J., Bufferand, H., Buratti, P., Burckhart, A., Burgess, A., Buscarino, A., Busse, A., Butcher, D., Calabrò, G., Calacci, L., Calado, R., Canavan, R., Cannas, B., Cannon, M., Cappelli, M., Carcangiu, S., Card, P., Cardinali, A., Carli, S., Carman, P., Carnevale, D., Carvalho, B., Carvalho, I. S., Carvalho, P., Casiraghi, I., Casson, F. J., Castaldo, C., Catalan, J. P., Catarino, N., Causa, F., Cavedon, M., Cecconello, M., Ceelen, L., Challis, C. D., Chamberlain, B., Chandra, R., Chang, C. S., Chankin, A., Chapman, B., Chauhan, P., Chernyshova, M., Chiariello, A., Chira, G. C., Chmielewski, P., Chomiczewska, A., Chone, L., Cieslik, J., Ciraolo, G., Ciric, D., Citrin, J., Ciupinski, Clarkson, R., Cleverly, M., Coates, P., Coccorese, V., Coelho, R., Coenen, J. W., Coffey, I. H., Colangeli, A., Colas, L., Collins, J., Conroy, S., Contré, C., Conway, N. J., Coombs, D., Cooper, P., Cooper, S., Cordaro, L., Corradino, C., Corre, Y., Corrigan, G., Coster, D., Craciunescu, T., Cramp, S., Craven, D., Craven, R., Croci, G., Croft, D., Crombé, K., Cronin, T., Cruz, N., Cufar, A., Cullen, A., Dal Molin, A., Dalley, S., David, P., Davies, A., Davies, J., Davies, S., Davis, G., Dawson, K., Dawson, S., Day, I., De Tommasi, G., Deane, J., Dearing, M., De Bock, M., Decker, J., Dejarnac, R., Delabie, E., de la Cal, E., de la Luna, E., Del Sarto, D., Dempsey, A., Deng, W., Dennett, A., Derks, G.L., De Temmerman, G., Devasagayam, F., de Vries, P., Devynck, P., di Siena, A., Dickinson, D., Dickson, T., Diez, M., Dinca, P., Dittmar, T., Dittrich, L., Dobrashian, J., Dochnal, T., Donné, A.J.H., Dorland, W., Dorling, S., Dormido-Canto, S., Dotse, R., Douai, D., Dowson, S., Doyle, R., Dreval, M., Drews, P., Drummond, G., Duckworth, Ph, Dudding, H. G., Dumont, R., Dumortier, P., Dunai, D., Dunatov, T., Dunne, M., Ďuran, I., Durodié, F., Dux, R., Eade, T., Eardley, E., Edwards, J., Eich, T., Eksaeva, A., El-Haroun, H., Ellis, R. D., Ellwood, G., Elsmore, C., Emery, S., Ericsson, G., Eriksson, B., Eriksson, F., Eriksson, J., Eriksson, L. G., Ertmer, S., Evans, G., Evans, S., Fable, E., Fagan, D., Faitsch, M., Fajardo Jimenez, D., Falessi, M., Fanni, A., Farmer, T., Farquhar, I., Faugeras, B., Fazinić, S., Fedorczak, N., Felker, K., Felton, R., Fernandes, H., Ferreira, D. R., Ferreira, J., Ferrò, G., Fessey, J., Février, O., Ficker, O., Field, A. R., Figueiredo, A., Figueiredo, J., Fil, A., Fil, N., Finburg, P., Fischer, U., Fishpool, G., Fittill, L., Fitzgerald, M., Flammini, D., Flanagan, J., Foley, S., Fonnesu, N., Fontana, M., Fontdecaba, J. M., Fortuna, L., Fortuna-Zalesna, E., Fortune, M., Fowler, C., Fox, P., Franklin, O., Fransson, E., Frassinetti, L., Fresa, R., Frigione, D., Fülöp, T., Furseman, M., Gabriellini, S., Gadariya, D., Gadgil, S., Gál, K., Galeani, S., Galkowski, A., Gallart, D., Gambrioli, M., Gans, T., Garcia, J., García-Mun͂oz, M., Garzotti, L., Gaspar, J., Gatto, R., Gaudio, P., Gear, D., Gebhart, T., Gee, S., Gelfusa, M., George, R., Gerasimov, S. N., Gerru, R., Gervasini, G., Gethins, M., Ghani, Z., Gherendi, M., Gherghina, P. I., Ghezzi, F., Giacomelli, L., Gibson, C., Gil, L., Gilbert, M. R., Gillgren, A., Giovannozzi, E., Giroud, C., Giruzzi, G., Goff, J., Goloborodko, V., Gomes, R., Gomez, J. F., Gonçalves, B., Goniche, M., Gonzalez-Martin, J., Goodyear, A., Gore, S., Gorini, G., Görler, T., Gotts, N., Gow, E., Graves, J. P., Green, J., Greuner, H., Grigore, E., Griph, F., Gromelski, W., Groth, M., Grove, C., Grove, R., Gupta, N., Hacquin, S., Hägg, L., Hakola, A., Halitovs, M., Hall, J., Ham, C. J., Hamed, M., Hardman, M. R., Haresawa, Y., Harrer, G., Harrison, J. R., Harting, D., Hatch, D. R., Haupt, T., Hawes, J., Hawkes, N. C., Hawkins, J., Hazael, S., Hearmon, J., Heesterman, P., Heinrich, P., Held, M., Helou, W., Hemming, O., Henderson, S. S., Henriques, R., Henriques, R. B., Hepple, D., Herfindal, J., Hermon, G., Hillesheim, J. C., Hizanidis, K., Hjalmarsson, A., Ho, A., Hobirk, J., Hoenen, O., Hogben, C., Hollingsworth, A., Hollis, S., Hollmann, E., Hölzl, M., Hook, M., Hoppe, M., Horáček, J., Horsten, N., Horton, A., Horton, L. D., Horvath, L., Hotchin, S., Hu, Z., Huang, Z., Hubenov, E., Huber, A., Huber, V., Huddleston, T., Huijsmans, G. T.A., Husain, Y., Huynh, P., Hynes, A., Iglesias, D., Iliasova, M. V., Imríšek, M., Ingleby, J., Innocente, P., Ioannou-Sougleridis, V., Isernia, N., Ivanova-Stanik, I., Ivings, E., Jachmich, S., Jackson, T., Jacobsen, A. S., Jacquet, P., Järleblad, H., Järvinen, A., Jaulmes, F., Jayasekera, N., Jenko, F., Jepu, I., Joffrin, E., Johnson, T., Johnston, J., Jones, C., Jones, E., Jones, G., Jones, L., Jones, T. T.C., Joyce, A., Juvonen, M., Kallenbach, A., Kalnina, P., Kalupin, D., Kanth, P., Kantor, A., Kappatou, A., Kardaun, O., Karhunen, J., Karsakos, E., Kazakov, Ye O., Kazantzidis, V., Keeling, D. L., Kelly, W., Kempenaars, M., Kennedy, D., Khan, K., Khilkevich, E., Kiefer, C., Kim, H. T., Kim, J., Kim, S. H., King, D. B., Kinna, D. J., Kiptily, V. G., Kirjasuo, A., Kirov, K. K., Kirschner, A., Kiviniemi, T., Kizane, G., Klepper, C., Klix, A., Kneale, G., Knight, M., Knight, P., Knights, R., Knipe, S., Knoche, U., Knolker, M., Kocan, M., Köchl, F., Kocsis, G., Koenders, J.T.W., Kolesnichenko, Y., Kominis, Y., Kong, M., Kool, B., Korovin, V., Korsholm, S. B., Kos, B., Kos, D., Koubiti, M., Kovtun, Y., Kowalska-Strzęciwilk, E., Koziol, K., Krasikov, Y., Krasilnikov, A., Krasilnikov, V., Kresina, M., Kreter, A., Krieger, K., Krivska, A., Kruezi, U., Książek, I., Kumpulainen, H., Kurzan, B., Kwak, S., Kwon, O. J., Labit, B., Lacquaniti, M., Lagoyannis, A., Laguardia, L., Laing, A., Laksharam, V., Lam, N., Lambertz, H. T., Lane, B., Langley, M., Lascas Neto, E., Łaszyńska, E., Lawson, K. D., Lazaros, A., Lazzaro, E., Learoyd, G., Lee, C., Lee, K., Leerink, S., Leeson, T., Lefebvre, X., Leggate, H. J., Lehmann, J., Lehnen, M., Leichtle, D., Leipold, F., Lengar, I., Lennholm, M., Leon Gutierrez, E., Leppin, L. A., Lerche, E., Lescinskis, A., Lesnoj, S., Lewin, L., Lewis, J., Likonen, J., Linsmeier, Ch, Litaudon, X., Litherland-Smith, E., Liu, F., Loarer, T., Loarte, A., Lobel, R., Lomanowski, B., Lomas, P. J., Lombardo, J., Lorenzini, R., Loreti, S., Loschiavo, V. P., Loughlin, M., Lowe, T., Lowry, C., Luce, T., Lucock, R., Luda Di Cortemiglia, T., Lungaroni, M., Lungu, C. P., Lunt, T., Lutsenko, V., Lyons, B., Macdonald, J., Macusova, E., Mäenpää, R., Maier, H., Mailloux, J., Makarov, S., Manas, P., Manning, A., Mantica, P., Mantsinen, M. J., Manyer, J., Manzanares, A., Maquet, Ph, Maraschek, M., Marceca, G., Marcer, G., Marchetto, C., Marchuk, O., Mariani, A., Mariano, G., Marin, M., Marin Roldan, A., Marinelli, M., Markovič, T., Marot, L., Marren, C., Marsden, S., Marsen, S., Marsh, J., Marshall, R., Martellucci, L., Martin, A. J., Martin, C., Martone, R., Maruyama, S., Maslov, M., Mattei, M., Matthews, G. F., Matveev, D., Matveeva, E., Mauriya, A., Maviglia, F., Mayer, M., Mayoral, M. L., Mazzi, S., Mazzotta, C., McAdams, R., McCarthy, P. J., McCullen, P., McDermott, R., McDonald, D. C., McGuckin, D., McKay, V., McNamee, L., McShee, A., Mederick, D., Medland, M., Medley, S., Meghani, K., Meigs, A. G., Meitner, S., Menmuir, S., Mergia, K., Mianowski, S., Middleton, P., Mietelski, J., Mikszuta-Michalik, K., Milanesio, D., Milani, E., Militello-Asp, E., Militello, F., Milnes, J., Milocco, A., Minucci, S., Miron, I., Mitchell, J., Mlynář, J., Moiseenko, V., Monaghan, P., Monakhov, I., Montisci, A., Moon, S., Mooney, R., Moradi, S., Morales, R. B., Morgan, L., Moro, F., Morris, J., Mrowetz, T., Msero, L., Munot, S., Mun͂oz-Perez, A., Muraglia, M., Murari, A., Muraro, A., N’Konga, B., Na, Y. S., Nabais, F., Naish, R., Napoli, F., Nardon, E., Naulin, V., Nave, M. F.F., Neu, R., Ng, S., Nicassio, M., Nicolai, D., Nielsen, A. H., Nielsen, S. K., Nina, D., Noble, C., Nobs, C. R., Nocente, M., Nordman, H., Nowak, S., Nyström, H., O’Callaghan, J., O’Mullane, M., O’Neill, C., Olde, C., Oliver, H. J.C., Olney, R., Ongena, J., Orsitto, G. P., Osipov, A., Otin, R., Pace, N., Packer, L. W., Pajuste, E., Palade, D., Palgrave, J., Pan, O., Panadero, N., Pandya, T., Panontin, E., Papadopoulos, A., Papadopoulos, G., Papp, G., Parail, V. V., Parsloe, A., Paschalidis, K., Passeri, M., Patel, A., Pau, A., Pautasso, G., Pavlichenko, R., Pavone, A., Pawelec, E., Paz-Soldan, C., Peacock, A., Pearce, M., Pearson, I. J., Peluso, E., Penot, C., Pepperell, K., Perdas, A., Pereira, T., Perelli Cippo, E., Perez von Thun, C., Perry, D., Petersson, P., Petravich, G., Petrella, N., Peyman, M., Pigatto, L., Pillon, M., Pinches, S., Pintsuk, G., Piron, C., Pironti, A., Pisano, F., Pitts, R., Planck, U., Platt, N., Plyusnin, V., Podesta, M., Pokol, G., Poli, F. M., Pompilian, O. G., Poradzinski, M., Porkolab, M., Porosnicu, C., Poulipoulis, G., Poulsen, A. S., Predebon, I., Previti, A., Primetzhofer, D., Provatas, G., Pucella, G., Puglia, P., Purahoo, K., Putignano, O., Pütterich, T., Quercia, A., Radulescu, G., Radulovic, V., Ragona, R., Rainford, M., Raj, P., Rasinski, M., Rasmussen, D., Rasmussen, J. J., Raso, A., Rattá, G., Ratynskaia, S., Rayaprolu, R., Rebai, M., Redl, A., Rees, D., Réfy, D., Reichle, R., Reimerdes, H., Reman, B. C.G., Reux, C., Reynolds, S., Rigamonti, D., Righi, E., Rimini, F. G., Risner, J., Rivero-Rodriguez, J. F., Roach, C. M., Roberts, J., Robins, R., Robinson, S., Robson, D., Rode, S., Rodrigues, P., Rodriguez-Fernandez, P., Romanelli, S., Romazanov, J., Rose, E., Rose-Innes, C., Rossi, R., Rowe, S., Rowlands, D., Rowley, C., Rubel, M., Rubinacci, G., Rubino, G., Rud, M., Ruiz Ruiz, J., Ryter, F., Saarelma, S., Sahlberg, A., Salewski, M., Salmi, A., Salmon, R., Salzedas, F., Sanchez, F., Sanders, I., Sandiford, D., Sanni, F., Sauter, O., Sauvan, P., Schettini, G., Shevelev, A., Schekochihin, A. A., Schmid, K., Schmidt, B. S., Schmuck, S., Schneider, M., Schneider, P. A., Schoonheere, N., Schramm, R., Scoon, D., Scully, S., Segato, M., Seidl, J., Senni, L., Seo, J., Sergienko, G., Sertoli, M., Sharapov, S. E., Sharma, R., Shaw, A., Shaw, R., Sheikh, H., Sheikh, U., Shi, N., Shigin, P., Shiraki, D., Sias, G., Siccinio, M., Sieglin, B., Silburn, S. A., Silva, A., Silva, C., Silva, J., Silvagni, D., Simfukwe, D., Simpson, J., Sirén, P., Sirinelli, A., Sjöstrand, H., Skinner, N., Slater, J., Smart, T., Smirnov, R. D., Smith, N., Smith, P., Smith, T., Snell, J., Snoj, L., Solano, E. R., Solokha, V., Sommariva, C., Soni, K., Sos, M., Sousa, J., Sozzi, C., Spelzini, T., Spineanu, F., Spolladore, L., Spong, D., Srinivasan, C., Staebler, G., Stagni, A., Stamatelatos, I., Stamp, M. F., Štancar, Staniec, P. A., Stankūnas, G., Stead, M., Stein-Lubrano, B., Stephen, A., Stephens, J., Stevenson, P., Steventon, C., Stojanov, M., St-Onge, D. A., Strand, P., Strikwerda, S., Stuart, C. I., Sturgeon, S., Sun, H. J., Surendran, S., Suttrop, W., Svensson, J., Svoboda, J., Sweeney, R., Szepesi, G., Szoke, M., Tadić, T., Tal, B., Tala, T., Tamain, P., Tanaka, K., Tang, W., Tardini, G., Tardocchi, M., Taylor, D., Teimane, A. S., Telesca, G., Teplukhina, A., Terra, A., Terranova, D., Terranova, N., Testa, D., Thomas, B., Thompson, V. K., Thorman, A., Thrysoe, A. S., Tierens, W., Tinguely, R. A., Tipton, A., Todd, H., Tomeš, M., Tookey, A., Tsavalas, P., Tskhakaya, D., Turica, L. P., Turner, A., Turner, I., Turner, M. M., Tvalashvili, G., Tykhyy, A., Tyrrell, S., Uccello, A., Udintsev, V., Vadgama, A., Valcarcel, D. F., Valentini, A., Valisa, M., Vallar, M., Valovic, M., van Berkel, M., van de Plassche, K.L., van Rossem, M., Van Eester, D., Varela, J., Varje, J., Vasilopoulou, T., Vayakis, G., Vecsei, M., Vega, J., Veis, M., Veis, P., Ventre, S., Veranda, M., Verdoolaege, G., Verona, C., Verona Rinati, G., Veshchev, E., Vianello, N., Viezzer, E., Vignitchouk, L., Vila, R., Villari, R., Villone, F., Vincenzi, P., Vitins, A., Vizvary, Z., Vlad, M., Voldiner, I., Von Toussaint, U., Vondráček, P., Wakeling, B., Walker, M., Walker, R., Walsh, M., Walton, R., Wang, E., Warren, F., Warren, R., Waterhouse, J., Watts, C., Webster, T., Weiland, M., Weisen, H., Weiszflog, M., Wendler, N., West, A., Wheatley, M., Whetham, S., Whitehead, A., Whittaker, D., Widdowson, A., Wiesen, S., Willensdorfer, M., Williams, J., Wilson, I., Wilson, T., Wischmeier, M., Withycombe, A., Witts, D., Wojcik-Gargula, A., Wolfrum, E., Wood, R., Woodley, R., Worrall, R., Wyss, I., Xu, T., Yadykin, D., Yakovenko, Y., Yang, Y., Yanovskiy, V., Yi, R., Young, I., Young, R., Zaar, B., Zabolockis, R. J., Zakharov, L., Zanca, P., Zarins, A., Zarzoso Fernandez, D., Zastrow, K. D., Zayachuk, Y., Zerbini, M., Zhang, W., Zimmermann, B., Zlobinski, M., Zocco, A., Zotta, V. K., Zuin, M., Zwingmann, W., and Zychor, I.

Abstract

In 2021 JET exploited its unique capabilities to operate with T and D–T fuel with an ITER-like Be/W wall (JET-ILW). This second major JET D–T campaign (DTE2), after DTE1 in 1997, represented the culmination of a series of JET enhancements—new fusion diagnostics, new T injection capabilities, refurbishment of the T plant, increased auxiliary heating, in-vessel calibration of 14 MeV neutron yield monitors—as well as significant advances in plasma theory and modelling in the fusion community. DTE2 was complemented by a sequence of isotope physics campaigns encompassing operation in pure tritium at high T-NBI power. Carefully conducted for safe operation with tritium, the new T and D–T experiments used 1 kg of T (vs 100 g in DTE1), yielding the most fusion reactor relevant D–T plasmas to date and expanding our understanding of isotopes and D–T mixture physics. Furthermore, since the JET T and DTE2 campaigns occurred almost 25 years after the last major D–T tokamak experiment, it was also a strategic goal of the European fusion programme to refresh operational experience of a nuclear tokamak to prepare staff for ITER operation. The key physics results of the JET T and DTE2 experiments, carried out within the EUROfusion JET1 work package, are reported in this paper. Progress in the technological exploitation of JET D–T operations, development and validation of nuclear codes, neutronic tools and techniques for ITER operations carried out by EUROfusion (started within the Horizon 2020 Framework Programme and continuing under the Horizon Europe FP) are reported in (Litaudon et al Nucl. Fusion accepted), while JET experience on T and D–T operations is presented in (King et al Nucl. Fusion submitted).

Published

2024

12. Detection of alpha heating in JET-ILW DT plasmas by a study of the electron temperature response to ICRH modulation

Author

Mantica, P., Auriemma, F., Casiraghi, I., Gallart, D., Kirov, K., Lerche, E., Salmi, A., Dal Molin, A., Delabie, E., Eriksson, Jacob, Garcia, J., Huynh, P., Jacquet, P., Jonsson, T., Kiptily, V., Litherland-Smith, E., Maggi, C. F., Mantsinen, M., Marcer, G., Maslov, M., Menmuir, S., Nocente, M., Peluso, E., Pucella, G., Rigamonti, D., Stancar, Z., Sun, H., Szepesi, G., Tardocchi, M., Van Eester, D., Mantica, P., Auriemma, F., Casiraghi, I., Gallart, D., Kirov, K., Lerche, E., Salmi, A., Dal Molin, A., Delabie, E., Eriksson, Jacob, Garcia, J., Huynh, P., Jacquet, P., Jonsson, T., Kiptily, V., Litherland-Smith, E., Maggi, C. F., Mantsinen, M., Marcer, G., Maslov, M., Menmuir, S., Nocente, M., Peluso, E., Pucella, G., Rigamonti, D., Stancar, Z., Sun, H., Szepesi, G., Tardocchi, M., and Van Eester, D.

Abstract

In the JET DTE2 campaign a new method was successfully tested to detect the heating of bulk electrons by alpha-particles, using the dynamic response of the electron temperature T e to the modulation of ion cyclotron resonance heating (ICRH). A fundamental deuterium (D) ICRH scheme was applied to a tritium-rich hybrid plasma with D-neutral beam injection (NBI). The modulation of the ion temperature T i and of the ICRH accelerated deuterons leads to modulated alpha-heating with a large delay with respect to other modulated electron heating terms. A significant phase delay of similar to 40 degrees is measured between central T e and T i, which can only be explained by alpha-particle heating. Integrated modelling using different models for ICRH absorption and ICRH/NBI interaction reproduces the effect qualitatively. Best agreement with experiment is obtained with the European Transport Solver/Heating and Current Drive workflow.

Published

2024

13. The Agile Alert System For Gamma-Ray Transients

Author

Bulgarelli, A., Trifoglio, M., Gianotti, F., Tavani, M., Parmiggiani, N., Fioretti, V., Chen, A. W., Vercellone, S., Pittori, C., Verrecchia, F., Lucarelli, F., Santolamazza, P., Fanari, G., Giommi, P., Beneventano, D., Argan, A., Trois, A., Scalise, E., Longo, F., Pellizzoni, A., Pucella, G., Colafrancesco, S., Conforti, V., Tempesta, P., Cerone, M., Sabatini, P., Annoni, G., Valentini, G., and Salotti, L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

In recent years, a new generation of space missions offered great opportunities of discovery in high-energy astrophysics. In this article we focus on the scientific operations of the Gamma-Ray Imaging Detector (GRID) onboard the AGILE space mission. The AGILE-GRID, sensitive in the energy range of 30 MeV-30 GeV, has detected many gamma-ray transients of galactic and extragalactic origins. This work presents the AGILE innovative approach to fast gamma-ray transient detection, which is a challenging task and a crucial part of the AGILE scientific program. The goals are to describe: (1) the AGILE Gamma-Ray Alert System, (2) a new algorithm for blind search identification of transients within a short processing time, (3) the AGILE procedure for gamma-ray transient alert management, and (4) the likelihood of ratio tests that are necessary to evaluate the post-trial statistical significance of the results. Special algorithms and an optimized sequence of tasks are necessary to reach our goal. Data are automatically analyzed at every orbital downlink by an alert pipeline operating on different timescales. As proper flux thresholds are exceeded, alerts are automatically generated and sent as SMS messages to cellular telephones, e-mails, and push notifications of an application for smartphones and tablets. These alerts are crosschecked with the results of two pipelines, and a manual analysis is performed. Being a small scientific-class mission, AGILE is characterized by optimization of both scientific analysis and ground-segment resources. The system is capable of generating alerts within two to three hours of a data downlink, an unprecedented reaction time in gamma-ray astrophysics., Comment: 34 pages, 9 figures, 5 tables

Published

2014

14. An updated list of AGILE bright gamma-ray sources and their variability in pointing mode

Author

Verrecchia, F., Pittori, C., Chen, A. W., Bulgarelli, A., Tavani, M., Lucarelli, F., Giommi, P., Vercellone, S., Pellizzoni, A., Giuliani, A., Longo, F., Barbiellini, G., Trifoglio, M., Gianotti, F., Argan, A., Antonelli, L. A., Caraveo, P., Cardillo, M., Cattaneo, P. W., Cocco, V., Colafrancesco, S., Contessi, T., Costa, E., Del Monte, E., De Paris, G., Di Cocco, G., Di Persio, G., Donnarumma, I., Evangelista, Y., Fanari, G., Feroci, M., Ferrari, A., Fiorini, M., Fornari, F., Fuschino, F., Froysland, T., Frutti, M., Galli, M., Labanti, C., Lapshov, I., Lazzarotto, F., Liello, F., Lipari, P., Mattaini, E., Marisaldi, M., Mastropietro, M., Mauri, A., Mauri, F., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Perotti, F., Piano, G., Picozza, P., Pilia, M., Pontoni, C., Porrovecchio, G., Prest, M., Primavera, R., Pucella, G., Rapisarda, M., Rappoldi, A., Rossi, E., Rubini, A., Sabatini, S., Santolamazza, P., Soffitta, P., Stellato, S., Striani, E., Tamburelli, F., Traci, A., Trois, A., Vallazza, E., Vittorini, V., Zanello, D., Salotti, L., and Valentini, G.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present a variability study of a sample of bright gamma-ray (30 MeV -- 50 GeV) sources. This sample is an extension of the first AGILE catalogue of gamma-ray sources (1AGL), obtained using the complete set of AGILE observations in pointing mode performed during a 2.3 year period from July 9, 2007 until October 30, 2009. The dataset of AGILE pointed observations covers a long time interval and its gamma-ray data archive is useful for monitoring studies of medium-to-high brightness gamma-ray sources. In the analysis reported here, we used data obtained with an improved event filter that covers a wider field of view, on a much larger (about 27.5 months) dataset, integrating data on observation block time scales, which mostly range from a few days to thirty days. The data processing resulted in a better characterized source list than 1AGL was, and includes 54 sources, 7 of which are new high galactic latitude (|BII| >= 5) sources, 8 are new sources on the galactic plane, and 20 sources from the previous catalogue with revised positions. Eight 1AGL sources (2 high-latitude and 6 on the galactic plane) were not detected in the final processing either because of low OB exposure and/or due to their position in complex galactic regions. We report the results in a catalogue of all the detections obtained in each single OB, including the variability results for each of these sources. In particular, we found that 12 sources out of 42 or 11 out of 53 are variable, depending on the variability index used, where 42 and 53 are the number of sources for which these indices could be calculated. Seven of the 11 variable sources are blazars, the others are Crab pulsar+nebula, LS I +61{\deg}303, Cyg X-3, and 1AGLR J2021+4030., Comment: 30 pages, 12 figures

Published

2013

15. Calibration of AGILE-GRID with In-Flight Data and Monte Carlo Simulations

Author

Chen, Andrew W., Argan, A., Bulgarelli, A., Cattaneo, P. W., Contessi, T., Giuliani, A., Pittori, C., Pucella, G., Tavani, M., Trois, A., Verrecchia, F., Barbiellini, G., Caraveo, P., Colafrancesco, S., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Donnarumma, I., Evangelista, Y., Ferrari, A., Feroci, M., Fioretti, V., Fiorini, M., Fuschino, F., Galli, M., Gianotti, F., Giommi, P., Giusti, M., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Lucarelli, F., Marisaldi, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Santolamazza, P., Soffitta, P., Striani, E., Trifoglio, M., Valentini, G., Vallazza, E., Vercellone, S., Vittorini, V., and Zanello, D.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Context: AGILE is a gamma-ray astrophysics mission which has been in orbit since 23 April 2007 and continues to operate reliably. The gamma-ray detector, AGILE-GRID, has observed Galactic and extragalactic sources, many of which were collected in the first AGILE Catalog. Aims: We present the calibration of the AGILE-GRID using in-flight data and Monte Carlo simulations, producing Instrument Response Functions (IRFs) for the effective area A_eff), Energy Dispersion Probability (EDP), and Point Spread Function (PSF), each as a function of incident direction in instrument coordinates and energy. Methods: We performed Monte Carlo simulations at different gamma-ray energies and incident angles, including background rejection filters and Kalman filter-based gamma-ray reconstruction. Long integrations of in-flight observations of the Vela, Crab and Geminga sources in broad and narrow energy bands were used to validate and improve the accuracy of the instrument response functions. Results: The weighted average PSFs as a function of spectra correspond well to the data for all sources and energy bands. Conclusions: Changes in the interpolation of the PSF from Monte Carlo data and in the procedure for construction of the energy-weighted effective areas have improved the correspondence between predicted and observed fluxes and spectra of celestial calibration sources, reducing false positives and obviating the need for post-hoc energy-dependent scaling factors. The new IRFs have been publicly available from the Agile Science Data Centre since November 25, 2011, while the changes in the analysis software will be distributed in an upcoming release.

Published

2013

16. Variable gamma-ray emission from the Crab Nebula: short flares and long 'waves'

Author

Striani, E., Tavani, M., Vittorini, V., Donnarumma, I., Giuliani, A., Pucella, G., Argan, A., Bulgarelli, A., Colafrancesco, S., Cardillo, M., Costa, E., Del Monte, E., Ferrari, A., Mereghetti, S., Pacciani, L., Pellizzoni, A., Piano, G., Pittori, C., Rapisarda, M., Sabatini, S., Soffitta, P., Trifoglio, M., Trois, A., Vercellone, S., and Verrecchia, F.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Gamma-ray emission from the Crab Nebula has been recently shown to be unsteady. In this paper, we study the flux and spectral variability of the Crab above 100 MeV on different timescales ranging from days to weeks. In addition to the four main intense and day-long flares detected by AGILE and Fermi-LAT between Sept. 2007 and Sept. 2012, we find evidence for week-long and less intense episodes of enhanced gamma-ray emission that we call "waves". Statistically significant "waves" show timescales of 1-2 weeks, and can occur by themselves or in association with shorter flares. We present a refined flux and spectral analysis of the Sept. - Oct. 2007 gamma-ray enhancement episode detected by AGILE that shows both "wave" and flaring behavior. We extend our analysis to the publicly available Fermi-LAT dataset and show that several additional "wave" episodes can be identified. We discuss the spectral properties of the September 2007 "wave"/flare event and show that the physical properties of the "waves" are intermediate between steady and flaring states. Plasma instabilities inducing "waves" appear to involve spatial distances l \sim 10^{16} cm and enhanced magnetic fields B \sim (0.5 - 1) mG. Day-long flares are characterized by smaller distances and larger local magnetic fields. Typically, the deduced total energy associated with the "wave" phenomenon (E_w \sim 10^{42} erg, where E_w is the kinetic energy of the emitting particles) is comparable with that associated to the flares, and can reach a few percent of the total available pulsar spindown energy. Most likely, flares and waves are the product of the same class of plasma instabilities that we show acting on different timescales and radiation intensities., Comment: 11 pages, 10 figures

Published

2013

17. The AGILE monitoring of Cygnus X-3: transient gamma-ray emission and spectral constraints

Author

Piano, G., Tavani, M., Vittorini, V., Trois, A., Giuliani, A., Bulgarelli, A., Evangelista, Y., Coppi, P., Del Monte, E., Sabatini, S., Striani, E., Donnarumma, I., Hannikainen, D., Koljonen, K. I. I., McCollough, M., Pooley, G., Trushkin, S., Zanin, R., Barbiellini, G., Cardillo, M., Cattaneo, P. W., Chen, A. W., Colafrancesco, S., Feroci, M., Fuschino, F., Giusti, M., Longo, F., Morselli, A., Pellizzoni, A., Pittori, C., Pucella, G., Rapisarda, M., Rappoldi, A., Soffitta, P., Trifoglio, M., Vercellone, S., and Verrecchia, F.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the AGILE-GRID monitoring of Cygnus X-3, during the period between November 2007 and July 2009. We report here the whole AGILE-GRID monitoring of Cygnus X-3 in the AGILE "pointing" mode data-taking, to confirm that the gamma-ray activity coincides with the same repetitive pattern of multiwavelength emission and to analyze in depth the overall gamma-ray spectrum by assuming both leptonic and hadronic scenarios. Seven intense gamma-ray events were detected in this period, with a typical event lasting one or two days. These durations are longer than the likely cooling times of the gamma-ray emitting particles, implying we see continuous acceleration rather than the result of an impulsive event such as the ejection of a single plasmoid which then cools as it propagates outwards. Cross-correlating the AGILE-GRID light curve with X-ray and radio monitoring data, we find that the main events of gamma-ray activity have been detected while the system was in soft spectral X-ray states (RXTE/ASM count rate > 3 counts/s), that coincide with local and often sharp minima of the hard X-ray flux (Swift/BAT count rate < 0.02 counts/cm^2/s), a few days before intense radio outbursts. [...] These gamma-ray events may thus reflect a sharp transition in the structure of the accretion disk and its corona, which leads to a rebirth of the microquasar jet and subsequent enhanced radio activity. [...] Finally, we examine leptonic and hadronic emission models for the gamma-ray events and find that both scenarios are valid. In the leptonic model - based on inverse Compton scatterings of mildly relativistic electrons on soft photons from the Wolf-Rayet companion star and from the accretion disk - the emitting particles may also contribute to the overall hard X-ray spectrum, possibly explaining the hard non-thermal power-law tail sometimes seen during special soft X-ray states in Cygnus X-3., Comment: Accepted for publication in A&A on July 26, 2012

Published

2012

18. The characterization of the distant blazar GB6 J1239+0443 from flaring and low activity periods

Author

Pacciani, L., Donnarumma, I., Denney, K. D., Assef, R. J., Ikejiri, Y., Yamanaka, M., Uemura, M., Domingo, A., Giommi, P., Tarchi, A., Verrecchia, F., Longo, F., Rainó, S., Giusti, M., Vercellone, S., Chen, A. W., Striani, E., Vittorini, V., Tavani, M., Bulgarelli, A., Giuliani, A., Pucella, G., Argan, A., Barbiellini, G., Caraveo, P., Cattaneo, P. W., Colafrancesco, S., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Evangelista, Y., Ferrari, A., Feroci, M., Fiorini, M., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Marisaldi, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Soffitta, P., Trifoglio, M., Trois, A., Vallazza, E., Zanello, D., Pittori, C., Santolamazza, P., Lucarelli, F., Salotti, L., and Valentini, G.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In 2008 AGILE and Fermi detected gamma-ray flaring activity from the unidentified EGRET source 3EG J1236+0457, recently associated with a flat spectrum radio quasar GB6 J1239+0443 at z=1.762. The optical counterpart of the gamma-ray source underwent a flux enhancement of a factor 15-30 in 6 years, and of ~10 in six months. We interpret this flare-up in terms of a transition from an accretion-disk dominated emission to a synchrotron-jet dominated one. We analysed a Sloan Digital Sky Survey (SDSS) archival optical spectrum taken during a period of low radio and optical activity of the source. We estimated the mass of the central black hole using the width of the CIV emission line. In our work, we have also investigated SDSS archival optical photometric data and UV GALEX observations to estimate the thermal-disk emission contribution of GB6 J1239+0443. Our analysis of the gamma-ray data taken during the flaring episodes indicates a flat gamma-ray spectrum, with an extension of up to 15 GeV, with no statistically-relevant sign of absorption from the broad line region, suggesting that the blazar-zone is located beyond the broad line region. This result is confirmed by the modeling of the broad-band spectral energy distribution (well constrained by the available multiwavelength data) of the flaring activity periods and by the accretion disk luminosity and black hole mass estimated by us using archival data., Comment: 30 pages, 7 figures, 4 tables MNRAS Accepted on 2012 June 18

Published

2012

19. Galactic Sources Science With Agile: The Case Of The Carina Region

Author

Sabatini, S., Tavani, M., Pian, E., Bulgarelli, A., Caraveo, P., Viotti, R., Corcoran, M. F., Giuliani, A., Pittori, C., Verrecchia, F., Vercellone, S., Mereghetti, S., Argan, A., Barbiellini, G., Boffelli, F., Cattaneo, P. W., Chen, A. W., Cocco, V., D'Ammando, F., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Donnarumma, I., Evangelista, Y., Ferrari, A., Feroci, M., Fiorini, M., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mastropietro, M., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Porrovecchio, G., Pucella, G., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Soffitta, P., Trifoglio, M., Trois, A., Vallazza, E., Vittorini, V., Zambra, A., Zanello, D., Santolamazza, P., Giommi, P., Colafrancesco, S., Antonelli, L. A., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

During its first 2 years of operation, the gamma-ray AGILE satellite accumulated an extensive dataset for the Galactic plane. The data have been monitored for transient sources and several gamma-ray sources were detected. Their variability and possible association were studied. In this talk we will focus on the results of extensive observations of the Carina Region during the time period 2007 July - 2009 January, for a total livetime of ~130 days. The region is extremely complex, hosting massive star formation, with the remarkable colliding wind binary Eta Carinae, massive star clusters and HII regions (e.g. NGC 3324, RCW49, Westerlund II) and a giant molecular cloud extending over 150 pc (between l=284.7 and l=289). The Carina Nebula itself is the largest and IR highest surface brightness nebula of the Southern emisphere. We monitored several gamma ray sources in the Carina Region. In particular we detect a gamma ray source (1AGL J1043-5931) consistent with the position of Eta Carinae and report a remarkable 2-days gamma-ray flaring episode from this source on 2008 Oct 11-13. If 1AGL J1043-5931 is associated with the Eta Car system, our data provides the long sought first detection above 100 MeV of a colliding wind binary., Comment: 5 pages, 5 figures, proceedings of RICAP 2009

Published

2012

20. The flaring blazars of the first 1.5 years of the AGILE mission

Author

Pacciani, L., Bulgarelli, A., Chen, A. W., D'Ammando, F., Donnarumma, I., Giuliani, A., Longo, F., Pucella, G., Tavani, M., Vercellone, S., Vittorini, V., Argan, A., Barbiellini, G., Boffelli, F., Caraveo, P., Cattaneo, P. W., Cocco, V., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Evangelista, Y., Ferrari, A., Feroci, M., Fiorini, M., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Marisaldi, M., Mastropietro, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Porrovecchio, G., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Soffitta, P., Trifoglio, M., Trois, A., Vallazza, E., Zambra, A., Zanello, D., Antonelli, L. A., Colafrancesco, S., Giommi, P., Pittori, C., Verrecchia, F., Santolamazza, P., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report the AGILE gamma-ray observations and the results of the multiwavelength campaigns on seven flaring blazars detected by the mission: During two multiwavelength campaigns, we observed gamma-ray activity from two Flat Spectrum Radio Quasars of the Virgo region, e.g. 3C 279 and 3C 273 (the latter being the first extragalactic source simultaneously observed with the gamma-ray telescope and the hard X ray imager of the mission). Due to the large FOV of the AGILE/GRID instrument, we achieved an almost continuous coverage of the FSRQ 3C 454.3. The source showed flux above 10E-6 photons/cm2/s (E > 100 MeV) and showed day by day variability during all the AGILE observing periods. In the EGRET era, the source was found in high gamma-ray activity only once. An other blazar, PKS 1510-089 was frequently found in high gamma-ray activity. S5 0716+71, an intermediate BL Lac object, exhibited a very high gamma-ray activity and fast gamma-ray variability during a period of intense optical activity. We observed high gamma-ray activity from W Comae, a BL Lac object, and Mrk 421, an high energy peaked BL Lac object. For this source, a multiwavelength campaign from optical to TeV has been performed.

Published

2011

21. The observation of Gamma Ray Bursts and Terrestrial Gamma-ray Flashes with AGILE

Author

Del Monte, E., Barbiellini, G., Fuschino, F., Giuliani, A., Longo, F., Marisaldi, M., Mereghetti, S., Moretti, E., Trifoglio, M., Vianello, G., Costa, E., Donnarumma, I., Evangelista, Y., Feroci, M., Galli, M., Lapshov, I., Lazzarotto, F., Lipari, P., Pacciani, L., Rapisarda, M., Soffitta, P., Tavani, M., Vercellone, S., Cutini, S., Boffelli, F., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Chen, A., Di Cocco, G., Gianotti, F., Labanti, C., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Pucella, G., Rappoldi, A., Sabatini, S., Striani, E., Trois, A., Vallazza, E., Vittorini, V., Antonelli, L. A., Pittori, C., Preger, B., Santolamazza, P., Verrecchia, F., Giommi, P., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Since its early phases of operation, the AGILE mission is successfully observing Gamma Ray Bursts (GRBs) in the hard X-ray band with the SuperAGILE imager and in the MeV range with the Mini-Calorimeter. Up to now, three firm GRB detections were obtained above 25 MeV and some bursts were detected with lower statistical confidence in the same energy band. When a GRB is localized, either by SuperAGILE or Swift/BAT or INTEGRAL/IBIS or Fermi/GBM or IPN, inside the field of view of the Gamma Ray Imager of AGILE, a detection is searched for in the gamma ray band or an upper limit is provided. A promising result of AGILE is the detection of very short gamma ray transients, a few ms in duration and possibly identified with Terrestrial Gamma-ray Flashes. In this paper we show the current status of the observation of Gamma Ray Bursts and Terrestrial Gamma-ray Flashes with AGILE., Comment: Four pages and four figures

Published

2011

22. First results about on-ground calibration of the Silicon Tracker for the AGILE satellite

Author

AGILE Collaboration, Cattaneo, P. W., Argan, A., Boffelli, F., Bulgarelli, A., Buonomo, B., Chen, A. W., D'Ammando, F., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Longo, F., Marisaldi, M., Mazzitelli, G., Pellizzoni, A., Prest, M., Pucella, G., Quintieri, L., Rappoldi, A., Tavani, M., Trifoglio, M., Trois, A., Valente, P., Vallazza, E., Vercellone, S., Zambra, A., Barbiellini, G., Caraveo, P., Cocco, V., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Donnarumma, I., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Mastropietro, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Perotti, F., Piano, G., Picozza, P., Pilia, M., Porrovecchio, G., Rapisarda, M., Rubini, A., Sabatini, S., Soffitta, P., Striani, E., Vittorini, V., Zanello, D., Colafrancesco, S., Giommi, P., Pittori, C., Santolamazza, P., Verrecchia, F., and Salotti, L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors

Abstract

The AGILE scientific instrument has been calibrated with a tagged $\gamma$-ray beam at the Beam Test Facility (BTF) of the INFN Laboratori Nazionali di Frascati (LNF). The goal of the calibration was the measure of the Point Spread Function (PSF) as a function of the photon energy and incident angle and the validation of the Monte Carlo (MC) simulation of the silicon tracker operation. The calibration setup is described and some preliminary results are presented., Comment: Presented at the 2nd Roma International Conference on Astroparticle Physics 2009, Villa Mondragone, Rome, Italy, May 13-15 2009. Pages 6, Figures 10

Published

2011

23. Characterization of a tagged $\gamma$-ray beam line at the DA$\Phi$NE Beam Test Facility

Author

Cattaneo, P. W., Argan, A., Boffelli, F., Bulgarelli, A., Buonomo, B., Chen, A. W., D'Ammando, F., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Longo, F., Marisaldi, M., Mazzitelli, G., Pellizzoni, A., Prest, M., Pucella, G., Quintieri, L., Rappoldi, A., Tavani, M., Trifoglio, M., Trois, A., Valente, P., Vallazza, E., Vercellone, S., Zambra, A., Barbiellini, G., Caraveo, P., Cocco, V., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Donnarumma, I., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Mastropietro, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Perotti, F., Piano, G., Picozza, P., Pilia, M., Porrovecchio, G., Rapisarda, M., Rubini, A., Sabatini, S., Soffitta, P., Striani, E., Vittorini, V., Zanello, D., Colafrancesco, S., Giommi, P., Pittori, C., Santolamazza, P., Verrecchia, F., and Salotti, L.

Subjects

Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

At the core of the AGILE scientific instrument, designed to operate on a satellite, there is the Gamma Ray Imaging Detector (GRID) consisting of a Silicon Tracker (ST), a Cesium Iodide Mini-Calorimeter and an Anti-Coincidence system of plastic scintillator bars. The ST needs an on-ground calibration with a $\gamma$-ray beam to validate the simulation used to calculate the energy response function and the effective area versus the energy and the direction of the $\gamma$ rays. A tagged $\gamma$-ray beam line was designed at the Beam Test Facility (BTF) of the INFN Laboratori Nazionali of Frascati (LNF), based on an electron beam generating $\gamma$ rays through bremsstrahlung in a position-sensitive target. The $\gamma$-ray energy is deduced by difference with the post-bremsstrahlung electron energy \cite{prest}-\cite{hasan}. The electron energy is measured by a spectrometer consisting of a dipole magnet and an array of position sensitive silicon strip detectors, the Photon Tagging System (PTS). The use of the combined BTF-PTS system as tagged photon beam requires understanding the efficiency of $\gamma$-ray tagging, the probability of fake tagging, the energy resolution and the relation of the PTS hit position versus the $\gamma$-ray energy. This paper describes this study comparing data taken during the AGILE calibration occurred in 2005 with simulation., Comment: 23 pages; 17 figures. Second and final version accepted by Nucl. Instr. & Meth. A

Published

2011

24. AGILE detection of Cygnus X-3 {\gamma}-ray active states during the period mid-2009/mid-2010

Author

Bulgarelli, A., Tavani, M., Chen, A. W., Evangelista, Y., Trifoglio, M., Gianotti, F., Piano, G., Sabatini, S., Striani, E., Pooley, G., Trushkin, S., Nizhelskij, N. A., McCollough, M., Koljonen, K. I. I., Hannikainen, D., Lähteenmäki, A., Tammi, J., Lavonen, N., Steeghs, D., Aboudan, A., Argan, A., Barbiellini, G., Campana, R., Caraveo, P., Cattaneo, P. W., Cocco, V., Contessi, T., Costa, E., D'Ammando, F., Del Monte, E., De Paris, G., Di Cocco, G., Donnarumma, I., Feroci, M., Fiorini, M., Fuschino, F., Galli, M., Giuliani, A., Giusti, M., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Prest, M., Pucella, G., Rapisarda, M., Rappoldi, A., Rubini, A., Soffitta, P., Trois, A., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Zanello, D., Giommi, P., Pittori, C., Verrecchia, F., Santolamazza, P., Lucarelli, F., Colafrancesco, S., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Cygnus X-3 (Cyg X-3) is a well-known microquasar producing variable emission at all wavelengths. Cyg X-3 is a prominent X-ray binary producing relativistic jets, and studying its high energy emission is crucial for the understanding of the fundamental acceleration processes in accreting compact objects. Aims. Our goal is to study extreme particle acceleration and {\gamma}-ray production above 100 MeV during special spectral states of Cyg X- 3 usually characterized by a low hard X-ray flux and enhanced soft X-ray states. We observed Cyg X-3 with the AGILE satellite in extended time intervals from 2009 Jun.-Jul., and 2009 Nov.-2010 Jul. We report here the results of the AGILE {\gamma}-ray monitoring of Cyg X-3 as well as the results from extensive multiwavelength campaigns involving radio (RATAN-600, AMI-LA and Mets\"{a}hovi Radio Observatories) and X-ray monitoring data (XTE and Swift). We detect a series of repeated {\gamma}-ray flaring activity from Cyg X-3 that correlate with the soft X-ray states and episodes of decreasing or non-detectable hard X-ray emission. Furthermore, we detect {\gamma}-ray enhanced emission that tends to be associated with radio flares greater than 1 Jy at 15 GHz, confirming a trend already detected in previous observations. The source remained active above 100 MeV for an extended period of time (almost 1.5 months in 2009 Jun.-Jul. and 1 month in 2010 May). We study in detail the short timescale {\gamma}-ray flares that occurred before or near the radio peaks. Our results confirm the transient nature of the extreme particle acceleration from the microquasar Cyg X-3. A series of repeated {\gamma}-ray flares shows correlations with radio and X-ray emission confirming a well established trend of emission. We compare our results with Fermi-LAT and MAGIC TeV observations of Cyg X-3., Comment: 16 pages, 8 figures, 7 tables; A&A (2011)

Published

2011

25. Neutral pion emission from accelerated protons in the supernova remnant W44

Author

Giuliani, A., Cardillo, M., Tavani, M., Fukui, Y., Yoshiike, S., Torii, K., Dubner, G., Castelletti, G., Barbiellini, G., Bulgarelli, A., Caraveo, P., Costa, E., Cattaneo, P. W., Chen, A., Contessi, T., Del Monte, E., Donnarumma, I., Evangelista, Y., Feroci, M., Gianotti, F., Lazzarotto, F., Lucarelli, F., Longo, F., Marisaldi, M., Mereghetti, S., Pacciani, L., Pellizzoni, A., Piano, G., Picozza, P., Pittori, C., Pucella, G., Rapisarda, M., Rappoldi, A., Sabatini, S., Soffitta, P., Striani, E., Trifoglio, M., Trois, A., Vercellone, S., Verrecchia, F., Vittorini, V., Colafrancesco, S., Giommi, P., and Bignami, G.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the AGILE gamma-ray observations in the energy range 50 MeV - 10 GeV of the supernova remnant (SNR) W44, one of the most interesting systems for studying cosmic-ray production. W44 is an intermediate-age SNR (20, 000 years) and its ejecta expand in a dense medium as shown by a prominent radio shell, nearby molecular clouds, and bright [SII] emitting regions. We extend our gamma-ray analysis to energies substantially lower than previous measurements which could not conclusively establish the nature of the radiation. We find that gamma-ray emission matches remarkably well both the position and shape of the inner SNR shocked plasma. Furthermore, the gamma-ray spectrum shows a prominent peak near 1 GeV with a clear decrement at energies below a few hundreds of MeV as expected from neutral pion decay. Here we demonstrate that: (1) hadron-dominated models are consistent with all W44 multiwavelength constraints derived from radio, optical, X-ray, and gamma-ray observations; (2) ad hoc lepton-dominated models fail to explain simultaneously the well-constrained gamma-ray and radio spectra, and require a circumstellar density much larger than the value derived from observations; (3) the hadron energy spectrum is well described by a power-law (with index s = 3.0 \pm 0.1) and a low-energy cut-off at Ec = 6 \pm 1 GeV. Direct evidence for pion emission is then established in an SNR for the first time., Comment: accepted for publication on ApJL

Published

2011

26. The AGILE observations of the hard and bright GRB 100724B

Author

Del Monte, E., Barbiellini, G., Donnarumma, I., Fuschino, F., Giuliani, A., Longo, F., Marisaldi, M., Pucella, G., Tavani, M., Trifoglio, M., Trois, A., Argan, A., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Chen, A., Costa, E., D'Ammando, F., Di Cocco, G., Evangelista, Y., Feroci, M., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Mereghetti, S., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Sabatini, S., Soffitta, P., Striani, E., Vallazza, E., Vercellone, S., Vittorini, V., Antonelli, L. A., Cutini, S., Pittori, C., Santolamazza, P., Verrecchia, F., Giommi, P., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The observation of Gamma Ray Bursts (GRBs) in the gamma-ray band has been advanced by the AGILE and Fermi satellites after the era of the Compton Gamma-Ray Observatory. AGILE and Fermi are showing that the GeV-bright GRBs share a set of common features, particularly the high fluence from the keV up to the GeV energy bands, the high value of the minimum Lorentz factor, the presence of an extended emission of gamma-rays, often delayed with respect to lower energies, and finally the possible presence of multiple spectral components. GRB 100724B, localised in a joint effort by Fermi and the InterPlanetary Newtork, is the brightest burst detected in gamma-rays so far by AGILE. Characteristic features of GRB 100724B are the simultaneous emissions at MeV and GeV, without delayed onset nor time lag as shown by the analysis of the cross correlation function, and the significant spectral evolution in hard X-rays over the event duration. In this paper we show the analysis of the AGILE data of GRB 100724B and we discuss its features in the context of the bursts observed so far in gamma-rays and the recently proposed models., Comment: 8 pages, 5 figures. Accepted for publication by A&A. Final version after the correction by the language editor

Published

2011

27. The brightest gamma-ray flaring blazar in the sky: AGILE and multi-wavelength observations of 3C 454.3 during November 2010

Author

Vercellone, S., Striani, E., Vittorini, V., Donnarumma, I., Pacciani, L., Pucella, G., Tavani, M., Raiteri, C. M., Villata, M., Romano, P., Fiocchi, M., Bazzano, A., Bianchin, V., Ferrigno, C., Maraschi, L., Pian, E., Türler, M., Ubertini, P., Bulgarelli, A., Chen, A. W., Giuliani, A., Longo, F., Barbiellini, G., Cardillo, M., Cattaneo, P. W., Del Monte, E., Evangelista, Y., Feroci, M., Ferrari, A., Fuschino, F., Gianotti, F., Giusti, M., Lazzarotto, F., Pellizzoni, A., Piano, G., Pilia, M., Rapisarda, M., Rappoldi, A., Sabatini, S., Soffitta, P., Trifoglio, M., Trois, A., Giommi, P., Lucarelli, F., Pittori, C., Santolamazza, P., Verrecchia, F., Agudo, I., Aller, H. D., Aller, M. F., Arkharov, A. A., Bach, U., Berdyugin, A., Borman, G. A., Chigladze, R., Efimov, Yu. S., Efimova, N. V., Gómez, J. L., Gurwell, M. A., McHardy, I. M., Joshi, M., Kimeridze, G. N., Krajci, T., Kurtanidze, O. M., Kurtanidze, S. O., Larionov, V. M., Lindfors, E., Molina, S. N., Morozova, D. A., Nazarov, S. V., Nikolashvili, M. G., Nilsson, K., Pasanen, M., Reinthal, R., Ros, J. A., Sadun, A. C., Sakamoto, T., Sallum, S., Sergeev, S. G., Schwartz, R. D., Sigua, L. A., Sillanpää, A., Sokolovsky, K. V., Strelnitski, V., Takalo, L., Taylor, B., and Walker, G.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Since 2005, the blazar 3C 454.3 has shown remarkable flaring activity at all frequencies, and during the last four years it has exhibited more than one gamma-ray flare per year, becoming the most active gamma-ray blazar in the sky. We present for the first time the multi-wavelength AGILE, SWIFT, INTEGRAL, and GASP-WEBT data collected in order to explain the extraordinary gamma-ray flare of 3C 454.3 which occurred in November 2010. On 2010 November 20 (MJD 55520), 3C 454.3 reached a peak flux (E>100 MeV) of F_gamma(p) = (6.8+-1.0)E-5 ph/cm2/s on a time scale of about 12 hours, more than a factor of 6 higher than the flux of the brightest steady gamma-ray source, the Vela pulsar, and more than a factor of 3 brighter than its previous super-flare on 2009 December 2-3. The multi-wavelength data make a thorough study of the present event possible: the comparison with the previous outbursts indicates a close similarity to the one that occurred in 2009. By comparing the broadband emission before, during, and after the gamma-ray flare, we find that the radio, optical and X-ray emission varies within a factor 2-3, whereas the gamma-ray flux by a factor of 10. This remarkable behavior is modeled by an external Compton component driven by a substantial local enhancement of soft seed photons., Comment: Accepted for publication in ApJ Letters. 18 Pages, 4 Figures, 1 Table

Published

2011

28. The remarkable gamma-ray activity in the gravitationally lensed blazar PKS 1830-211

Author

Donnarumma, I., De Rosa, A., Vittorini, V., Miller, H. R., Popovic, L. C., Simic, S., Tavani, M., Eggen, J., Maune, J., Kuulkers, E., Striani, E., Vercellone, S., Pucella, G., Verrecchia, F., Pittori, C., Giommi, P., Pacciani, L., Barbiellini, G., Bulgarelli, A., Cattaneo, P. W., Chen, A. W., Costa, E., Del Monte, E., Evangelista, Y., Feroci, M., Fuschino, F., Gianotti, F., Giuliani, A., Giusti, M., Lazzarotto, F., Longo, F., Lucarelli, F., Pellizzoni, A., Piano, G., Soffitta, P., Trifoglio, M., and Trois, A.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report the extraordinary gamma-ray activity (E>100 MeV) of the gravitationally lensed blazar PKS 1830-211 (z=2.507) detected by AGILE between October and November 2010. The source experienced on October 14 a flux increase of a factor of ~ 12 with respect to its average value and kept brightest at this flux level (~ 500 x 10^{-8} ph cm^-2 sec^-1) for about 4 days. The 1-month gamma-ray light curve across the flare showed a mean flux F(E>100 MeV)= 200 x 10^{-8} ph cm^-2 sec^-1, which resulted in an enhancement by a factor of 4 with respect to the average value. Following the gamma-ray flare, the source was observed in NIR-Optical energy bands at the Cerro Tololo Inter-American Observatory and in X-rays by Swift/XRT and INTEGRAL/IBIS. The main result of these multifrequency observations is that the large variability observed in gamma-rays has not a significant counterpart at lower frequencies: no variation greater than a factor of ~ 1.5 resulted in NIR and X-ray energy bands. PKS 1830-211 is then a good "gamma-ray only flaring" blazar showing substantial variability only above 10-100 MeV. We discuss the theoretical implications of our findings., Comment: 7 pages, 2 figures, 1 table, accepted for publication in ApJL

Published

2011

29. The Crab Nebula super-flare in April 2011: extremely fast particle acceleration and gamma-ray emission

Author

Striani, E., Tavani, M., Piano, G., Donnarumma, I., Pucella, G., Vittorini, V., Bulgarelli, A., Trois, A., Pittori, C., Verrecchia, F., Costa, E., Weisskopf, M., Tennant, A., Argan, A., Barbiellini, G., Caraveo, P., Cardillo, M, Cattaneo, P. W., Chen, A. W., De Paris, G., Del Monte, E., Di Cocco, G., Evangelista, Y., Ferrari, A., Feroci, M., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Labanti, C., Lapshov, I., Lazzarotto, F., Longo, F., Marisaldi, M., Mereghetti, S., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Rapisarda, M., Rappoldi, A., Sabatini, S., Soffitta, P., Trifoglio, M., Vercellone, S., Lucarelli, F., Santolamazza, P., and Giommi, P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report on the extremely intense and fast gamma-ray are above 100 MeV detected by AGILE from the Crab Nebula in mid-April 2011. This event is the fourth of a sequence of reported major gamma-ray flares produced by the Crab Nebula in the period 2007/mid-2011. These events are attributed to strong radiative and plasma instabilities in the inner Crab Nebula, and their properties are crucial for theoretical studies of fast and efficient particle acceleration up to 10^15 eV. Here we study the very rapid flux and spectral evolution of the event that reached on April 16, 2011 the record-high peak flux of F = (26 +/- 5) x 10^-6 ph cm^-2 s^-1 with a risetime timescale that we determine to be in the range 6-10 hrs. The peak flaring gamma-ray spectrum reaches a distinct maximum near 500 MeV with no substantial emission above 1 GeV. The very rapid risetime and overall evolution of the Crab Nebula are strongly constrain the acceleration mechanisms and challenge MHD models. We briefly discuss the theoretical implications of our observations., Comment: 4 pages, 2 figures. Accepted for pubblication in ApJL

Published

2011

30. Spectral Evolution of the September 2010 gamma-ray flare from the Crab Nebula (V2)

Author

Vittorini, V., Tavani, M., Pucella, G., and Donnarumma, I.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Strong gamma-ray flares from the Crab Nebula have been recently discovered by AGILE and confirmed by Fermi-LAT. We study here the spectral evolution in the gamma-ray energy range above 50 MeV of the September 2010 flare that was simultaneously detected by AGILE and Fermi-LAT. We revisit the AGILE spectral data, and present an emission model based on rapid (within 1 day) acceleration followed by synchrotron cooling. We show that this model successfully explains both the published AGILE and Fermi-LAT spectral data showing a rapid rise and a decay within 2-3 days. Our analysis constrains the acceleration timescale and mechanism, the properties of the particle distribution function, and the local magnetic field. The combination of very rapid acceleration, emission well above 100 MeV, and the spectral evolution consistent with synchrotron cooling contradicts the idealized scenario predicting an exponential cutoff at photon energies above 100 MeV. We also consider a variation of our model based on even shorter acceleration and decay timescales which can be consistent with the published averaged properties., Comment: accepted on ApJL

Published

2011

31. AGILE detection of extreme gamma-ray activity from the blazar PKS 1510-089 during March 2009. Multifrequency analysis

Author

D'Ammando, F., Raiteri, C. M., Villata, M., Romano, P., Pucella, G., Krimm, H. A., Covino, S., Orienti, M., Giovannini, G., Vercellone, S., Pian, E., Donnarumma, I., Vittorini, V., Tavani, M., Argan, A., Barbiellini, G., Boffelli, F., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Chen, A. W., Cocco, V., Costa, E., Del Monte, E., De Paris, G., Di Cocco, G., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Froysland, T., Frutti, M., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Porrovecchio, G., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Soffitta, P., Striani, E., Trifoglio, M., Trois, A., Vallazza, E., Zambra, A., Zanello, D., Agudo, I., Aller, H. D., Aller, M. F., Arkharov, A. A., Bach, U., Benitez, E., Berdyugin, A., Blinov, D. A., Buemi, C. S., Chen, W. P., Di Paola, A., Dolci, M., Forne, E., Fuhrmann, L., Gomez, J. L., Gurwell, M. A., Jordan, B., Jorstad, S. G., Heidt, J., Hiriart, D., Hovatta, T., Hsiao, H. Y., Kimeridze, G., Konstantinova, T. S., Kopatskaya, E. N., Koptelova, E., Kurtanidze, O. M., Kurtanidze, S. O., Larionov, V. M., Lahteenmaki, A., Leto, P., Lindfors, E., Marscher, A. P., McBreen, B., McHardy, I. M., Morozova, D. A., Nilsson, K., Pasanen, M., Roca-Sogorb, M., Sillanpaa, A., Takalo, L. O., Tornikoski, M., Trigilio, C., Troitsky, I. S., Umana, G., Antonelli, L. A., Colafrancesco, S., Pittori, C., Santolamazza, P., Verrecchia, F., Giommi, P., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report on the extreme gamma-ray activity from the FSRQ PKS 1510-089 observed by AGILE in March 2009. In the same period a radio-to-optical monitoring of the source was provided by the GASP-WEBT and REM. Moreover, several Swift ToO observations were triggered, adding important information on the source behaviour from optical/UV to hard X-rays. We paid particular attention to the calibration of the Swift/UVOT data to make it suitable to the blazars spectra. Simultaneous observations from radio to gamma rays allowed us to study in detail the correlation among the emission variability at different frequencies and to investigate the mechanisms at work. In the period 9-30 March 2009, AGILE detected an average gamma-ray flux of (311+/-21)x10^-8 ph cm^-2 s^-1 for E>100 MeV, and a peak level of (702+/-131)x10^-8 ph cm^-2 s^-1 on daily integration. The gamma-ray activity occurred during a period of increasing activity from near-IR to UV, with a flaring episode detected on 26-27 March 2009, suggesting that a single mechanism is responsible for the flux enhancement observed from near-IR to UV. By contrast, Swift/XRT observations seem to show no clear correlation of the X-ray fluxes with the optical and gamma-ray ones. However, the X-ray observations show a harder photon index (1.3-1.6) with respect to most FSRQs and a hint of harder-when-brighter behaviour, indicating the possible presence of a second emission component at soft X-ray energies. Moreover, the broad band spectrum from radio-to-UV confirmed the evidence of thermal features in the optical/UV spectrum of PKS 1510-089 also during high gamma-ray state. On the other hand, during 25-26 March 2009 a flat spectrum in the optical/UV energy band was observed, suggesting an important contribution of the synchrotron emission in this part of the spectrum during the brightest gamma-ray flare, therefore a significant shift of the synchrotron peak., Comment: 13 pages, 7 figures, 3 tables. Accepted for publication in Astronomy and Astrophysics

Published

2011

32. Gamma-ray blazars: the view from AGILE

Author

D'Ammando, F., Bulgarelli, A., Chen, A. W., Donnarumma, I., Giuliani, A., Longo, F., Pacciani, L., Pucella, G., Striani, E., Tavani, M., Vercellone, S., Vittorini, V., Covino, S., Krimm, H. A., Raiteri, C. M., Romano, P., and Villata, M.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

During the first 3 years of operation the Gamma-Ray Imaging Detector onboard the AGILE satellite detected several blazars in a high gamma-ray activity: 3C 279, 3C 454.3, PKS 1510-089, S5 0716+714, 3C 273, W Comae, Mrk 421, PKS 0537-441 and 4C +21.35. Thanks to the rapid dissemination of our alerts, we were able to obtain multiwavelength data from other observatories such as Spitzer, Swift, RXTE, Suzaku, INTEGRAL, MAGIC, VERITAS, and ARGO as well as radio-to-optical coverage by means of the GASP Project of the WEBT and the REM Telescope. This large multifrequency coverage gave us the opportunity to study the variability correlations between the emission at different frequencies and to obtain simultaneous spectral energy distributions of these sources from radio to gamma-ray energy bands, investigating the different mechanisms responsible for their emission and uncovering in some cases a more complex behaviour with respect to the standard models. We present a review of the most interesting AGILE results on these gamma-ray blazars and their multifrequency data., Comment: 25 pages, 10 figures, accepted for publication on Advances in Space Research. Talk presented at the 38th COSPAR Scientific Assembly (Bremen, Germany; July 18-25, 2010)

Published

2011

33. Discovery of Powerful Gamma-Ray Flares from the Crab Nebula

Author

Tavani, M., Bulgarelli, A., Vittorini, V., Pellizzoni, A., Striani, E., Caraveo, P., Weisskopf, M. C., Tennant, A., Pucella, G., Trois, A., Costa, E., Evangelista, Y., Pittori, C., Verrecchia, F., Del Monte, E., Campana, R., Pilia, M., De Luca, A., Donnarumma, I., Horns, D., Ferrigno, C., Heinke, C. O., Trifoglio, M., Gianotti, F., Vercellone, S., Argan, A., Barbiellini, G., Cattaneo, P. W., Chen, A. W., Contessi, T., D'Ammando, F., DeParis, G., Di Cocco, G., Di Persio, G., Feroci, M., Ferrari, A., Galli, M., Giuliani, A., Giusti, M., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Fuschino, F., Marisaldi, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Perotti, F., Piano, G., Picozza, P., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Soffitta, P., Vallazza, E., Zambra, A., Zanello, D., Lucarelli, F., Santolamazza, P., Giommi, P., Salotti, L., and Bignami, G. F.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The well known Crab Nebula is at the center of the SN1054 supernova remnant. It consists of a rotationally-powered pulsar interacting with a surrounding nebula through a relativistic particle wind. The emissions originating from the pulsar and nebula have been considered to be essentially stable. Here we report the detection of strong gamma-ray (100 MeV-10 GeV) flares observed by the AGILE satellite in September, 2010 and October, 2007. In both cases, the unpulsed flux increased by a factor of 3 compared to the non-flaring flux. The flare luminosity and short timescale favor an origin near the pulsar, and we discuss Chandra Observatory X-ray and HST optical follow-up observations of the nebula. Our observations challenge standard models of nebular emission and require power-law acceleration by shock-driven plasma wave turbulence within a ~1-day timescale., Comment: 23 pages (including Supporting On-line Material), 8 figures, 1 table. Version published in Science Express on January 6, 2011 (available at http://www.sciencemag.org/content/early/2011/01/05/science.1200083)

Published

2011

34. Gamma-Ray Localization of Terrestrial Gamma-Ray Flashes

Author

Marisaldi, M., Argan, A., Trois, A., Giuliani, A., Tavani, M., Labanti, C., Fuschino, F., Bulgarelli, A., Longo, F., Barbiellini, G., Del Monte, E., Moretti, E., Trifoglio, M., Costa, E., Caraveo, P., Cattaneo, P. W., Chen, A., D'Ammando, F., De Paris, G., Di Cocco, G., Di Persio, G., Donnarumma, I., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Froysland, T., Galli, M., Gianotti, F., Lapshov, I., Lazzarotto, F., Lipari, P., Mereghetti, S., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Piano, G., Pilia, M., Prest, M., Pucella, G., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Soffitta, P., Striani, E., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Zanello, D., Antonelli, L. A., Colafrancesco, S., Cutini, S., Giommi, P., Lucarelli, F., Pittori, C., Santolamazza, P., Verrecchia, F., and Salotti, L.

Subjects

Physics - Atmospheric and Oceanic Physics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Terrestrial Gamma-Ray Flashes (TGFs) are very short bursts of high energy photons and electrons originating in Earth's atmosphere. We present here a localization study of TGFs carried out at gamma-ray energies above 20 MeV based on an innovative event selection method. We use the AGILE satellite Silicon Tracker data that for the first time have been correlated with TGFs detected by the AGILE Mini-Calorimeter. We detect 8 TGFs with gamma-ray photons of energies above 20 MeV localized by the AGILE gamma-ray imager with an accuracy of 5-10 degrees at 50 MeV. Remarkably, all TGF-associated gamma rays are compatible with a terrestrial production site closer to the sub-satellite point than 400 km. Considering that our gamma rays reach the AGILE satellite at 540 km altitude with limited scattering or attenuation, our measurements provide the first precise direct localization of TGFs from space., Comment: 5 pages, 4 figures, 1 table, available at http://prl.aps.org/abstract/PRL/v105/i12/e128501

Published

2010

35. Study of the gamma-ray source 1AGL J2022+4032 in the Cygnus Region

Author

Chen, A. W., Piano, G., Tavani, M., Trois, A., Dubner, G., Giacani, E., Argan, A., Barbiellini, G., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Costa, E., D'Ammando, F., De Paris, G., Del Monte, E., Di Cocco, G., Donnarumma, I., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Giusti, M., Labanti, C., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Prest, M., Pucella, G., Rapisarda, M., Rappoldi, A., Sabatini, S., Scalise, E., Soffitta, P., Striani, E., Trifoglio, M., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Zanello, D., Pittori, C., Giommi, P., Verrecchia, F., Lucarelli, F., Santolamazza, P., Colafrancesco, S., Antonelli, L. A., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Identification of gamma-ray-emitting Galactic sources is a long-standing problem in astrophysics. One such source, 1AGL J2022+4032, coincident with the interior of the radio shell of the supernova remnant Gamma Cygni (SNR G78.2+2.1) in the Cygnus Region, has recently been identified by Fermi as a gamma-ray pulsar, LAT PSR J2021+4026. We present long-term observations of 1AGL J2022+4032 with the AGILE gamma-ray telescope, measuring its flux and light curve. We compare the light curve of 1AGL J2022+4032 with that of 1AGL J2021+3652 (PSR J2021+3651), showing that the flux variability of 1AGL J2022+4032 appears to be greater than the level predicted from statistical and systematic effects and producing detailed simulations to estimate the probability of the apparent observed variability. We evaluate the possibility that the gamma-ray emission may be due to the superposition of two or more point sources, some of which may be variable, considering a number of possible counterparts. We consider the possibility of a nearby X-ray quiet microquasar contributing to the flux of 1AGL J2022+4032 to be more likely than the hypotheses of a background blazar or intrinsic gamma-ray variabilty of LAT PSR J2021+4026., Comment: 7 pages, 7 figures, accepted for publication in Astronomy & Astrophysics

Published

2010

36. Agile Observations of the 'Soft' Gamma-Ray Pulsar PSR B1509-58

Author

Pilia, M., Pellizzoni, A., Trois, A., Verrecchia, F., Esposito, P., Weltevrede, P., Johnston, S., Burgay, M., Possenti, A., Del Monte, E., Fuschino, F., Santolamazza, P., Chen, A., Giuliani, A., Caraveo, P., Mereghetti, S., Tavani, M., Argan, A., Costa, E., D'Amico, N., De Luca, A., Evangelista, Y., Feroci, M., Longo, F., Marisaldi, M., Barbiellini, G., Bulgarelli, A., Cattaneo, P. W., Cocco, V., D'Ammando, F., De Paris, G., Di Cocco, G., Donnarumma, I., Fiorini, M., Froysland, T., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Morselli, A., Pacciani, L., Perotti, F., Piano, G., Picozza, P., Prest, M., Pucella, G., Rapisarda, M., Rappoldi, A., Sabatini, S., Soffitta, P., Trifoglio, M., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Zanello, D., Pittori, C., Lucarelli, F., Giommi, P., Salotti, L., and Bignami, G. F.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the results of new Agile observations of PSR B1509-58 performed over a period of 2.5 years following the detection obtained with a subset of the present data. The modulation significance of the lightcurve above 30 MeV is at a 5$\sigma$ confidence level and the lightcurve is similar to those found earlier by Comptel up to 30 MeV: a broad asymmetric first peak reaching its maximum 0.39 +/- 0.02 cycles after the radio peak plus a second peak at 0.94 +/- 0.03. The gamma-ray spectral energy distribution of the pulsed flux detected by Comptel and Agile is well described by a power-law (photon index alpha=1.87+/-0.09) with a remarkable cutoff at E_c=81 +/- 20 MeV, representing the softest spectrum observed among gamma-ray pulsars so far. The pulsar luminosity at E > 1 MeV is $L_{\gamma}=4.2^{+0.5}_{-0.2} \times10^{35}$ erg/s, assuming a distance of 5.2 kpc, which implies a spin-down conversion efficiency to gamma-rays of $\sim 0.03$. The unusual soft break in the spectrum of PSR B1509-58 has been interpreted in the framework of polar cap models as a signature of the exotic photon splitting process in the strong magnetic field of this pulsar. In this interpretation our spectrum constrains the magnetic altitude of the emission point(s) at 3 km above the neutron star surface, implying that the attenuation may not be as strong as formerly suggested because pair production can substitute photon splitting in regions of the magnetosphere where the magnetic field becomes too low to sustain photon splitting. In the case of an outer-gap scenario, or the two pole caustic model, better constraints on the geometry of the emission would be needed from the radio band in order to establish whether the conditions required by the models to reproduce Agile lightcurves and spectra match the polarization measurements., Comment: 17 pages, 2 figures, accepted for publication in ApJ

Published

2010

37. The extraordinary gamma-ray flare of the blazar 3C 454.3

Author

Striani, E., Vercellone, S., Tavani, M., Vittorini, V., D'Ammando, F., Donnarumma, I., Pacciani, L., Pucella, G., Bulgarelli, A., Trifoglio, M., Gianotti, F., Giommi, P., Argan, A., Barbiellini, G., Caraveo, P., Cattaneo, P. W., Chen, A. W., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Fuschino, F., Galli, M., Giuliani, A., Giusti, M., Labanti, C., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Sabatini, S., Scalise, E., Soffitta, P., Trois, A., Vallazza, E., Zambra, A., Zanello, D., Pittori, C., Verrecchia, F., Santolamazza, P., Lucarelli, F., Colafrancesco, S., Antonelli, L. A., and Salotti, L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present the gamma-ray data of the extraordinary flaring activity above 100 MeV from the flat spectrum radio quasar 3C 454.3 detected by AGILE during the month of December 2009. 3C 454.3, that has been among the most active blazars of the FSRQ type since 2007, was detected in the gamma-ray range with a progressively rising flux since November 10, 2009. The gamma-ray flux reached a value comparable with that of the Vela pulsar on December 2, 2009. Remarkably, between December 2 and 3, 2009 the source more than doubled its gamma-ray emission and became the brightest gamma-ray source in the sky with a peak flux of F_{\gamma,p} = (2000 \pm 400) x 10^-8 ph cm^-2 s^-1 for a 1-day integration above 100 MeV. The gamma-ray intensity decreased in the following days with the source flux remaining at large values near F \simeq (1000 \pm 200) x 10^-8 ph cm^-2 s^-1 for more than a week. This exceptional gamma-ray flare dissipated among the largest ever detected intrinsic radiated power in gamma-rays above 100 MeV (L_{\gamma, source, peak} \simeq 3 x 10^46 erg s^-1, for a relativistic Doppler factor of {\delta} \simeq 30). The total isotropic irradiated energy of the month-long episode in the range 100 MeV - 3 GeV is E_{\gamma,iso} \simeq 10^56 erg. We report the intensity and spectral evolution of the gamma-ray emission across the flaring episode. We briefly discuss the important theoretical implications of our detection., Comment: 17 pages, 3 figures, ApJ accepted

Published

2010

38. The December 2009 gamma-ray flare of 3C 454.3: the multifrequency campaign

Author

Pacciani, L., Vittorini, V., Tavani, M., Fiocchi, M. T., Vercellone, S., D'Ammando, F., Sakamoto, T., Pian, E., Raiteri, C. M., Villata, M., Sasada, M., Itoh, R., Yamanaka, M., Uemura, M., Striani, E., Fugazza, D., Tiengo, A., Krimm, H. A., Stroh, M. C., Falcone, A. D., Curran, P. A., Sadun, A. C., Lahteenmaki, A., Tornikoski, M., Aller, H. D., Aller, M. F., Lin, C. S., Larionov, V. M., Leto, P., Takalo, L. O., Berdyugin, A., Gurwell, M. A., Bulgarelli, A., Chen, A. W., Donnarumma, I., Giuliani, A., Longo, F., Pucella, G., Argan, A., Caraveo, G. Barbiellini P., Cattaneo, P. W., Cocco, V., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Evangelista, Y., Ferrari, A., Feroci, M., Fiorini, M., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Marisaldi, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Soffitta, P., Trifoglio, M., Trois, A., Vallazza, E., Zanello, D., Colafrancesco, S., Pittori, C., Verrecchia, F., Santolamazza, P., Lucarelli, F., Giommi, P., and Salotti, L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

During the month of December, 2009 the blazar 3C 454.3 became the brightest gamma-ray source in the sky, reaching a peak flux F ~2000E-8 ph/cm2/s for E > 100 MeV. Starting in November, 2009 intensive multifrequency campaigns monitored the 3C 454 gamma-ray outburst. Here we report the results of a 2-month campaign involving AGILE, INTEGRAL, Swift/XRT, Swift/BAT, RossiXTE for the high-energy observations, and Swift/UVOT, KANATA, GRT, REM for the near-IR/optical/UV data. The GASP/WEBT provided radio and additional optical data. We detected a long-term active emission phase lasting ~1 month at all wavelengths: in the gamma-ray band, peak emission was reached on December 2-3, 2009. Remarkably, this gamma-ray super-flare was not accompanied by correspondingly intense emission in the optical/UV band that reached a level substantially lower than the previous observations in 2007-2008. The lack of strong simultaneous optical brightening during the super-flare and the determination of the broad-band spectral evolution severely constrain the theoretical modelling. We find that the pre- and post-flare broad-band behavior can be explained by a one-zone model involving SSC plus external Compton emission from an accretion disk and a broad-line region. However, the spectra of the Dec. 2-3, 2009 super-flare and of the secondary peak emission on Dec. 9, 2009 cannot be satisfactorily modelled by a simple one-zone model. An additional particle component is most likely active during these states., Comment: 21 pages, 2 figures, ApJL accepted

Published

2010

39. AGILE detection of GeV gamma-ray emission from the SNR W28

Author

Giuliani, A., Tavani, M., Bulgarelli, A., Striani, E., Sabatini, S., Cardillo, M., Fukui, Y., Kawamura, A., Ohama, A., Furukawa, N., Torii, K., Aharonian, F. A., Verrecchia, F., Argan, A., Barbiellini, G., Caraveo, P. A., Cattaneo, P. W., Chen, A. W., Cocco, V., Costa, E., D'Ammando, F., Del Monte, E., De Paris, G., Di Cocco, G., Donnarumma, I., Evangelista, Y., Feroci, M., Fiorini, M., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, Y., Lazzarotto, F., Lipari, P., Longo, F., Mereghetti, M. Marisaldi., Morselli, A., Moretti, E., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Prest, M., Pucella, G., Rapisarda, M., Rappoldi, A., Soffitta, P., Trifoglio, M., Trois, A., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Zanello, D., Pittori, C., Santolamazza, P., Giommi, P., Colafrancesco, S., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Supernova remnants (SNRs) are believed to be the main sources of Galactic cosmic rays. Molecular clouds associated with SNRs can produce gamma-ray emission through the interaction of accelerated particles with the concentrated gas. The middle aged SNR W28, for its associated system of dense molecular clouds, provides an excellent opportunity to test this hypothesis. We present the AGILE/GRID observations of SNR W28, and compare them with observations at other wavelengths (TeV and 12CO J=1-->0 molecular line emission). The gamma-ray flux detected by AGILE from the dominant source associated with W28 is (14 +- 5) 10^-8 ph cm^-2 s^-1 for E > 400 MeV. This source is positionally well correlated with the TeV emission observed by the HESS telescope. The local variations of the GeV to TeV flux ratio suggest a difference between the CR spectra of the north-west and south molecular cloud complexes. A model based on a hadronic-induced interaction and diffusion with two molecular clouds at different distances from the W28 shell can explain both the morphological and spectral features observed by AGILE in the MeV-GeV energy range and by the HESS telescope in the TeV energy range. The combined set of AGILE and H.E.S.S. data strongly support a hadronic model for the gamma-ray production in W28., Comment: Accepted for publication in Astronomy & Astrophysics Letters

Published

2010

40. A year-long AGILE observation of Cygnus X-1 in hard spectral state

Author

Del Monte, E., Feroci, M., Evangelista, Y., Costa, E., Donnarumma, I., Lapshov, I., Lazzarotto, F., Pacciani, L., Rapisarda, M., Soffitta, P., Argan, A., Barbiellini, G., Boffelli, F., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Chen, A., D'Ammando, F., Di Cocco, G., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Labanti, C., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Pucella, G., Rappoldi, A., Sabatini, S., Striani, E., Tavani, M., Trifoglio, M., Trois, A., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Antonelli, L. A., Cutini, S., Pittori, C., Preger, B., Santolamazza, P., Verrecchia, F., Giommi, P., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the observation of Cyg X-1 in hard spectral state performed during the AGILE Science Verification Phase and Observing Cycle 1 in hard X-rays (with SuperAGILE) and gamma rays (with the GRID) and lasting for about 160 days with a live time of $\sim 6$ Ms. We investigate the variability of Cyg X-1 in hard X-rays at different timescales, from $\sim 300$ s up to one day, and we apply different tools of timing analysis, such as the autocorrelation function, the first order structure function and the Lomb-Scargle periodogram, to our data (from SuperAGILE) and to the simultaneous data in soft X-rays (from RXTE/ASM). We conclude our investigation with a search for emission in the energy range above 100 MeV with the maximum likelihood technique. In the hard X-ray band the flux of Cyg X-1 shows its typical erratic fluctuations at all timescales with variations of about a factor of two that do not affect significantly the shape of the energy spectrum. From the first order structure function we find that the X-ray emission of Cyg X-1 is characterized by \textit{antipersistence}, indication of a negative feedback mechanism at work. In the gamma ray data a statistically significant point-like source at the position of Cyg X-1 is not found and the upper limit on the flux is $\mathrm{5 \times 10^{-8} \; ph \; cm^{-2} \; s^{-1}}$, over the whole observation (160 days). Finally we compare our upper limit in gamma rays with the expectation of various models of the Cyg X-1 emission, of both hadronic and leptonic origin, in the GeV -- TeV band. The time history of Cyg X-1 in the hard X-ray band over 13 months (not continuous) is shown. Different tools of analysis do not provide fully converging results of the characteristic timescales in the system, suggesting that the timescales found in the structure function are not intrinsic to the physics of the source., Comment: 15 pages and 11 figures (with subfigures). Accepted for publication by A&A.

Published

2010

41. Episodic Transient Gamma-Ray Emission from the Microquasar Cygnus X-1

Author

Sabatini, S., Tavani, M., Striani, E., Bulgarelli, A., Vittorini, V., Piano, G., Del Monte, E., Feroci, M., de Pasquale, F., Trifoglio, M., Gianotti, F., Argan, A., Barbiellini, G., Caraveo, P., Cattaneo, P. W., Chen, A. W., D'Ammando, F., Costa, E., De Paris, G., Di Cocco, G., Donnarumma, I., Evangelista, Y., Ferrari, A., Fiorini, M., Fuschino, F., Galli, M., Giuliani, A., Giusti, M., Labanti, C., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Pucella, G., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Scalise, E., Soffitta, P., Trois, A., Vallazza, E., Vercellone, S., Zambra, A., Zanello, D., Pittori, C., Verrecchia, F., Santolamazza, P., Giommi, P., Colafrancesco, S., Antonelli, L. A., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Cygnus X-1 is the archetypal black hole (BH) binary system in our Galaxy. We report the main results of an extensive search for transient gamma-ray emission from Cygnus X-1 carried out in the energy range 100 MeV - 3 GeV by the AGILE satellite, during the period 2007 July - 2009 October. The total exposure time is about 300 days, during which the source was in the "hard" X-ray spectral state. We divided the observing intervals in 2 or 4 week periods, and searched for transient and persistent emission. We report an episode of significant transient gamma-ray emission detected on 2009, October 16 in a position compatible with Cygnus X-1 optical position. This episode, occurred during a hard spectral state of Cygnus X-1, shows that a 1-2 day time variable emission above 100 MeV can be produced during hard spectral states, having important theoretical implications for current Comptonization models for Cygnus X-1 and other microquasars. Except for this one short timescale episode, no significant gamma-ray emission was detected by AGILE. By integrating all available data we obtain a 2$\sigma$ upper limit for the total integrated flux of $F_{\gamma,U.L.} = 3 \times 10^{-8} \rm ph cm^{-2} s^{-1}$ in the energy range 100 MeV - 3 GeV. We then clearly establish the existence of a spectral cutoff in the energy range 1-100 MeV that applies to the typical hard state outside the flaring period and that confirms the historically known spectral cutoff above 1 MeV., Comment: Accepted for publication by ApJ on the 9th of Feb 2010, 5 pages, 3 figures

Published

2010

42. Multiwavelength observations of 3C 454.3. III. Eighteen months of AGILE monitoring of the 'Crazy Diamond'

Author

Vercellone, S., D'Ammando, F., Vittorini, V., Donnarumma, I., Pucella, G., Tavani, M., Ferrari, A., Raiteri, C. M., Villata, M., Romano, P., Krimm, H., Tiengo, A., Chen, A. W., Giovannini, G., Venturi, T., Giroletti, M., Kovalev, Y. Y., Sokolovsky, K., Pushkarev, A. B., Lister, M. L., Argan, A., Barbiellini, G., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Cocco, V., Costa, E., Del Monte, E., De Paris, G., Di Cocco, G., Evangelista, Y., Feroci, M., Fiorini, M., Fornari, F., Froysland, T., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Giuliani, A., Marisaldi, M., Mereghetti, S., Morselli, A., Pellizzoni, A., Pacciani, L., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Sabatini, S., Soffitta, P., Striani, E., Trifoglio, M., Trois, A., Vallazza, E., Zambra, A., Zanello, D., Pittori, C., Verrecchia, F., Santolamazza, P., Giommi, P., Colafrancesco, S., Salotti, L., Agudo, I., Aller, H. D., Aller, M. F., Arkharov, A. A., Bach, U., Bachev, R., Beltrame, P., Benitez, E., Boettcher, M., Buemi, C. S., Calcidese, P., Capezzali, D., Carosati, D., Chen, W. P., Da Rio, D., Di Paola, A., Dolci, M., Dultzin, D., Forne, E., Gomez, J. L., Gurwell, M. A., Hagen-Thorn, V. A., Halkola, A., Heidt, J., Hiriart, D., Hovatta, T., Hsiao, H. Y., Jorstad, S. G., Kimeridze, G., Konstantinova, T. S., Kopatskaya, E. N., Koptelova, E., Kurtanidze, O., Lahteenmaki, A., Larionov, V. M., Leto, P., Ligustri, R., Lindfors, E., Lopez, J. M., Marscher, A. P., Mujica, R., Nikolashvili, M., and Nilsson, K.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report on 18 months of multiwavelength observations of the blazar 3C 454.3 (Crazy Diamond) carried out in July 2007-January 2009. We show the results of the AGILE campaigns which took place on May-June 2008, July-August 2008, and October 2008-January 2009. During the May 2008-January 2009 period, the source average flux was highly variable, from an average gamma-ray flux F(E>100MeV) > 200E-8 ph/cm2/s in May-June 2008, to F(E>100MeV)~80E-8 ph/cm2/s in October 2008-January 2009. The average gamma-ray spectrum between 100 MeV and 1 GeV can be fit by a simple power law (Gamma_GRID ~ 2.0 to 2.2). Only 3-sigma upper limits can be derived in the 20-60 keV energy band with Super-AGILE. During July-August 2007 and May-June 2008, RXTE measured a flux of F(3-20 keV)= 8.4E-11 erg/cm2/s, and F(3-20 keV)=4.5E-11 erg/cm2/s, respectively and a constant photon index Gamma_PCA=1.65. Swift/XRT observations were carried out during all AGILE campaigns, obtaining a F(2-10 keV)=(0.9-7.5)E-11 erg/cm2/s and a photon index Gamma_XRT=1.33-2.04. BAT measured an average flux of ~5 mCrab. GASP-WEBT monitored 3C 454.3 during the whole 2007-2008 period from the radio to the optical. A correlation analysis between the optical and the gamma-ray fluxes shows a time lag of tau=-0.4 days. An analysis of 15 GHz and 43 GHz VLBI core radio flux observations shows an increasing trend of the core radio flux, anti- correlated with the higher frequency data. The modeling SEDs, and the behavior of the long-term light curves in different energy bands, allow us to compare the jet properties during different emission states, and to study the geometrical properties of the jet on a time-span longer than one year., Comment: Accepted for publication in ApJ. Adapted Abstract. 17 pages, 19 Figures, 5 Tables

Published

2010

43. Direct Evidence for Hadronic Cosmic-Ray Acceleration in the Supernova Renmant IC 443

Author

Tavani, M., Giuliani, A., Chen, A. W., Argan, A., Barbiellini, G., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Cocco, V., Contessi, T., D'Ammando, F., Costa, E., De Paris, G., Del Monte, E., Di Cocco, G., Donnarumma, I., Evangelista, Y., Ferrari, A., Feroci, M., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mastropietro, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Pucella, G., Prest, M., Rapisarda, M., Rappoldi, A., Scalise, E., Rubini, A., Sabatini, S., Striani, E., Soffitta, P., Trifoglio, M., Trois, A., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Zanello, D., Pittori, C., Verrecchia, F., Santolamazza, P., Giommi, P., Colafrancesco, S., Antonelli, L. A., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies

Abstract

The Supernova Remnant (SNR) IC 443 is an intermediate-age remnant well known for its radio, optical, X-ray and gamma-ray energy emissions. In this Letter we study the gamma-ray emission above 100 MeV from IC 443 as obtained by the AGILE satellite. A distinct pattern of diffuse emission in the energy range 100 MeV-3 GeV is detected across the SNR with its prominent maximum (source "A") localized in the Northeastern shell with a flux F = (47 \pm 10) 10^{-8} photons cm^{-2} s^{-1} above 100 MeV. This location is the site of the strongest shock interaction between the SNR blast wave and the dense circumstellar medium. Source "A" is not coincident with the TeV source located 0.4 degree away and associated with a dense molecular cloud complex in the SNR central region. From our observations, and from the lack of detectable diffuse TeV emission from its Northeastern rim, we demonstrate that electrons cannot be the main emitters of gamma-rays in the range 0.1-10 GeV at the site of the strongest SNR shock. The intensity, spectral characteristics, and location of the most prominent gamma-ray emission together with the absence of co-spatial detectable TeV emission are consistent only with a hadronic model of cosmic-ray acceleration in the SNR. A high-density molecular cloud (cloud "E") provides a remarkable "target" for nucleonic interactions of accelerated hadrons: our results show enhanced gamma-ray production near the molecular cloud/shocked shell interaction site. IC 443 provides the first unambiguous evidence of cosmic-ray acceleration by SNRs., Comment: 5 pages, 2 figures; accepted by ApJLetters on Jan 21, 2010

Published

2010

44. Detection of Gamma-Ray Emission from the Vela Pulsar Wind Nebula with AGILE

Author

Pellizzoni, A., Trois, A., Tavani, M., Pilia, M., Giuliani, A., Pucella, G., Esposito, P., Sabatini, S., Piano, G., Argan, A., Barbiellini, G., Bulgarelli, A., Burgay, M., Caraveo, P., Cattaneo, P. W., Chen, A. W., Cocco, V., Contessi, T., Costa, E., D'Ammando, F., Del Monte, E., De Paris, G., Di Cocco, G., Di Persio, G., Donnarumma, I., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Fuschino, F., Galli, M., Gianotti, F., Hotan, A., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Marisaldi, M., Mastropietro, M., Mereghetti, S., Moretti, E., Morselli, A., Pacciani, L., Palfreyman, J., Perotti, F., Picozza, P., Pittori, C., Possenti, A., Prest, M., Rapisarda, M., Rappoldi, A., Rossi, E., Rubini, A., Santolamazza, P., Scalise, E., Soffitta, P., Striani, E., Trifoglio, M., Vallazza, E., Vercellone, S., Verrecchia, F., Vittorini, V., Zambra, A., Zanello, D., Giommi, P., Colafrancesco, S., Antonelli, A., Salotti, L., D'Amico, N., and Bignami, G. F.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Pulsars are known to power winds of relativistic particles that can produce bright nebulae by interacting with the surrounding medium. These pulsar wind nebulae (PWNe) are observed in the radio, optical, x-rays and, in some cases, also at TeV energies, but the lack of information in the gamma-ray band prevents from drawing a comprehensive multiwavelength picture of their phenomenology and emission mechanisms. Using data from the AGILE satellite, we detected the Vela pulsar wind nebula in the energy range from 100 MeV to 3 GeV. This result constrains the particle population responsible for the GeV emission, probing multivavelength PWN models, and establishes a class of gamma-ray emitters that could account for a fraction of the unidentified Galactic gamma-ray sources., Comment: Accepted by Science; first published online on December 31, 2009 in Science Express. Science article and Supporting Online Material are available at http://www.sciencemag.org

Published

2009

45. 1st Roman Young Researchers Meeting Proceedings

Author

Cannuccia, E., Migliaccio, M., Pietrobon, D., Stellato, F., Veneziani, M., Sabbatini, L., Dall'Oglio, G., Pizzo, L., Cavaliere, F., Miriametro, A., Gallerani, S., Santini, P., D'Ammando, F., Vercellone, S., Donnarumma, I., Pacciani, L., Pucella, G., Tavani, M., Vittorini, V., Bulgarelli, A., Chen, A. W., Giuliani, A., Longo, F., Paggi, A., Turriziani, S., Abundo, P., Armisi, L., Gori, F., Rosato, N., Cattani, G., Racioppi, A., and Tarantino, W.

Subjects

Physics - General Physics, Astrophysics - Cosmology and Extragalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

During the last few decades scientists have been able to test the bases of the physics paradigms, where the quantum mechanics has to match the cosmological scales. Between the extremes of this scenario, biological phenomena and their complexity take place, challenging the laws we observe in the atomic and sub-atomic world. In order to explore the details of this world, new huge experimental facilities are under construction. These projects involve people coming from several countries and give physicists the opportunity to work together with chemists, biologists and other scientists. The Roman Young Researchers Meeting is a conference, organised by Ph. D. students and young postdocs connected to the Roman area. It is aimed primarily at graduate students and post-docs, working in physics. The 1st conference has been held on the 21st of July 2009 at the University of Roma Tor Vergata. It was organised in three sessions, devoted to Astrophysics and Cosmology, Soft and Condensed Matter Physics and Theoretical and Particle Physics. In this proceeding we collect the contributions which have been presented and discussed during the meeting, according to the specific topics treated., Comment: Proceedings of the 1st Young Researchers Meeting Rome, July 21st 2009 website: http://ryrm.roma2.infn.it/ryrm/index1.htm high resolution .pdf available at: http://ryrm.roma2.infn.it/ryrm/1st_meeting/database/1stRYRM_Proceedings.pdf

Published

2009

46. Powerful high energy emission of the remarkable BL Lac object S5 0716+714

Author

Vittorini, V., Tavani, M., Paggi, A., Cavaliere, A., Bulgarelli, A., Chen, A. W., D'Ammando, F., Donnarumma, I., Giuliani, A., Longo, F., Pacciani, L., Pucella, G., Vercellone, S., Ferrari, A., Colafrancesco, S., and Giommi, P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

BL Lac objects of the intermediate subclass (IBLs) are known to emit a substantial fraction of their power in the energy range 0.1--10 GeV. Detecting gamma-ray emission from such sources provides therefore a direct probe of the emission mechanisms and of the underlying powerhouse. The AGILE gamma-ray satellite detected the remarkable IBL S5 0716+714 (z \simeq 0.3) during a high state in the period from 2007 September - October, marked by two very intense flares reaching peak fluxes of 200\times10^{-8} ph / cm^2 s above 100 MeV, with simultaneous optical and X-ray observations. We present here a theoretical model for the two major flares and discuss the overall energetics of the source. We conclude that 0716+714 is among the brightest BL Lac's ever detected at gamma-ray energies. Because of its high power and lack of signs for ongoing accretion or surrounding gas, the source is an ideal candidate to test the maximal power extractable from a rotating supermassive black hole via the pure Blandford-Znajek (BZ) mechanism. We find that during the 2007 gamma-ray flares our source approached or just exceeded the upper limit set by BZ for a black hole of mass 10^9 M_sun, Comment: 12 pages, 3 figures

Published

2009

47. Temporal properties of GX 301-2 over a year-long observation with SuperAGILE

Author

Evangelista, Y., Feroci, M., Costa, E., Del Monte, E., Donnarumma, I., Lapshov, I., Lazzarotto, F., Pacciani, L., Rapisarda, M., Soffitta, P., Argan, A., Barbiellini, G., Boffelli, F., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Chen, A., D'Ammando, F., Di Cocco, G., Fuschino, F., Galli, M., Gianotti, F., Giuliani, A., Labanti, C., Lipari, P., Longo, F., Marisaldi, M., Mereghetti, S., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Prest, M., Pucella, G., Rappoldi, A., Sabatini, S., Striani, E., Tavani, M., Trifoglio, M., Trois, A., Vallazza, E., Vercellone, S., Vittorini, V., Zambra, A., Antonelli, L. A., Cutini, S., Pittori, C., Preger, B., Santolamazza, P., Verrecchia, F., Giommi, P., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the long-term monitoring of the High Mass X-ray Binary GX 301-2 performed with the SuperAGILE instrument on-board the AGILE mission. The source was monitored in the 20-60 keV energy band during the first year of the mission from 2007 July 17 to 2008 August 31, covering about one whole orbital period and three more pre-periastron passages for a total net observation time of about 3.7 Ms. The SuperAGILE dataset represents one of the most continuous and complete monitoring at hard X-ray energies of the 41.5 day long binary period available to date. The source behavior was characterized at all orbital phases in terms of hard X-ray flux, spectral hardness, spin period history, pulsed fraction and pulse shape profile. We also complemented the SuperAGILE observations with the soft X-ray data of the RossiXTE/ASM. Our analysis shows a clear orbital modulation of the spectral hardness, with peaks in correspondence with the pre-periastron flare and near phase 0.25. The hardness peaks we found could be related with the wind-plus-stream accretion model proposed in order to explain the orbital light curve modulation of GX 301-2. Timing analysis of the pulsar spin period shows that the secular trend of the about 680 s pulse period is consistent with the previous observations, although there is evidence of a slight decrease in the spin-down rate. The analysis of the hard X-ray pulsed emission also showed a variable pulse shape profile as a function of the orbital phase, with substructures detected near the passage at the periastron, and a clear modulation of the pulsed fraction, which appears in turn strongly anti-correlated with the source intensity., Comment: 10 pages, 7 figures, 3 tables, accepted for publication in ApJ

Published

2009

48. Discovery of extreme particle acceleration in the microquasar Cygnus X-3

Author

Tavani, M., Bulgarelli, A., Piano, G., Sabatini, S., Striani, E., Evangelista, Y., Trois, A., Pooley, G., Trushkin, S., Nizhelskij, N. A., McCollough, M., Koljonen, K. I. I., Pucella, G., Giuliani, A., Chen, A. W., Costa, E., Vittorini, V., Trifoglio, M., Gianotti, F., Argan, A., Barbiellini, G., Caraveo, P., Cattaneo, P. W., Cocco, V., Contessi, T., D'Ammando, F., Del Monte, E., De Paris, G., Di Cocco, G., Di Persio, G., Donnarumma, I., Feroci, M., Ferrari, A., Fuschino, F., Galli, M., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Longo, F., Mattaini, E., Marisaldi, M., Mastropietro, M., Mauri, A., Mereghetti, S., Morelli, E., Morselli, A., Pacciani, L., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Prest, M., Rapisarda, M., Rappoldi, A., Rossi, E., Rubini, A., Scalise, E., Soffitta, P., Vallazza, E., Vercellone, S., Zambra, A., Zanello, D., Pittori, C., Verrecchia, F., Giommi, P., Colafrancesco, S., Santolamazza, P., Antonelli, A., and Salotti, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The study of relativistic particle acceleration is a major topic of high-energy astrophysics. It is well known that massive black holes in active galaxies can release a substantial fraction of their accretion power into energetic particles, producing gamma-rays and relativistic jets. Galactic microquasars (hosting a compact star of 1-10 solar masses which accretes matter from a binary companion) also produce relativistic jets. However, no direct evidence of particle acceleration above GeV energies has ever been obtained in microquasar ejections, leaving open the issue of the occurrence and timing of extreme matter energization during jet formation. Here we report the detection of transient gamma-ray emission above 100 MeV from the microquasar Cygnus X-3, an exceptional X-ray binary which sporadically produces powerful radio jets. Four gamma-ray flares (each lasting 1-2 days) were detected by the AGILE satellite simultaneously with special spectral states of Cygnus X-3 during the period mid-2007/mid-2009. Our observations show that very efficient particle acceleration and gamma-ray propagation out of the inner disk of a microquasar usually occur a few days before major relativistic jet ejections. Flaring particle energies can be thousands of times larger than previously detected maximum values (with Lorentz factors of 105 and 102 for electrons and protons, respectively). We show that the transitional nature of gamma-ray flares and particle acceleration above GeV energies in Cygnus X-3 is clearly linked to special radio/X-ray states preceding strong radio flares. Thus gamma-rays provide unique insight into the nature of physical processes in microquasars., Comment: 29 pages (including Supplementary Information), 8 figures, 2 tables version submitted to Nature on August 7, 2009 (accepted version available at http://www.nature.com/nature/journal/vaop/ncurrent/pdf/nature08578.pdf)

Published

2009

49. Multiwavelength observations of 3C 454.3 II. The AGILE 2007 December campaign

Author

Donnarumma, I., Pucella, G., Vittorini, V., D'Ammando, F., Vercellone, S., Raiteri, C. M., Villata, M., Perri, M., Chen, W. P., Smart, R. L., Kataoka, J., Kawai, N., Mori, Y., Tosti, G., Impiombato, D., Takahashi, T., Sato, R., Tavani, M., Bulgarelli, A., Chen, A. W., Giuliani, A., Longo, F., Pacciani, L., Argan, A., Barbiellini, G., Boffelli, F., Caraveo, P., Cattaneo, P. W., Cocco, V., Contessi, T., Costa, E., Del Monte, E., De Paris, G., Di Cocco, G., Evangelista, Y., Feroci, M., Ferrari, A., Fiorini, M., Froysland, T., Frutti, M., Fuschino, F., Galli, M., Gianotti, F., Labanti, C., Lapshov, I., Lazzarotto, F., Lipari, P., Marisaldi, M., Mastropietro, M., Mereghetti, S., Morelli, E., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Picozza, P., Pilia, M., Porrovecchio, G., Prest, M., Rapisarda, M., Rappoldi, A., Rubini, A., Sabatini, S., Scalise, E., Soffitta, P., Striani, E., Trifoglio, M., Trois, A., Vallazza, E., Zambra, A., Zanello, D., Pittori, C., Santolamazza, P., Verrecchia, F., Giommi, P., Antonelli, L. A., Colafrancesco, S., and Salotti, L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report on the second AGILE multiwavelength campaign of the blazar 3C 454.3 during the first half of December 2007. This campaign involved AGILE, Spitzer, Swift,Suzaku,the WEBT consortium,the REM and MITSuME telescopes,offering a broad band coverage that allowed for a simultaneous sampling of the synchrotron and inverse Compton (IC) emissions.The 2-week AGILE monitoring was accompanied by radio to optical monitoring by WEBT and REM and by sparse observations in mid-Infrared and soft/hard X-ray energy bands performed by means of Target of Opportunity observations by Spitzer, Swift and Suzaku, respectively.The source was detected with an average flux of~250x10^{-8}ph cm^-2s^-1 above 100 MeV,typical of its flaring states.The simultaneous optical and gamma-ray monitoring allowed us to study the time-lag associated with the variability in the two energy bands, resulting in a possible ~1-day delay of the gamma-ray emission with respect to the optical one. From the simultaneous optical and gamma-ray fast flare detected on December 12, we can constrain the delay between the gamma-ray and optical emissions within 12 hours. Moreover, we obtain three Spectral Energy Distributions (SEDs) with simultaneous data for 2007 December 5, 13, 15, characterized by the widest multifrequency coverage. We found that a model with an external Compton on seed photons by a standard disk and reprocessed by the Broad Line Regions does not describe in a satisfactory way the SEDs of 2007 December 5, 13 and 15. An additional contribution, possibly from the hot corona with T=10^6 K surrounding the jet, is required to account simultaneously for the softness of the synchrotron and the hardness of the inverse Compton emissions during those epochs., Comment: 13 pages, 8 figures, 2 tables, Accepted for publication in ApJ

Published

2009

50. Monitoring the hard X-ray sky with SuperAGILE

Author

Feroci, M., Costa, E., Del Monte, E., Donnarumma, I., Evangelista, Y., Lapshov, I., Lazzarotto, F., Pacciani, L., Rapisarda, M., Soffitta, P., Di Persio, G., Frutti, M., Mastropietro, M., Morelli, E., Porrovecchio, G., Rubini, A., Antonelli, A., Argan, A., Barbiellini, G., Boffelli, F., Bulgarelli, A., Caraveo, P., Cattaneo, P. W., Chen, A. W., Cocco, V., Colafrancesco, S., Cutini, S., D'Ammando, F., De Paris, G., Di Cocco, G., Fanari, G., Ferrari, A., Fiorini, M., Fornari, F., Fuschino, F., Froysland, T., Galli, M., Gasparrini, D., Gianotti, F., Giommi, P., Giuliani, A., Labanti, C., Liello, F., Lipari, P., Longo, F., Mattaini, E., Marisaldi, M., Mauri, A., Mauri, F., Mereghetti, S., Moretti, E., Morselli, A., Pellizzoni, A., Perotti, F., Piano, G., Picozza, P., Pilia, M., Pittori, C., Pontoni, C., Preger, B., Prest, M., Primavera, R., Pucella, G., Rappoldi, A., Rossi, E., Sabatini, S., Santolamazza, P., Tavani, M., Stellato, S., Tamburelli, F., Traci, A., Trifoglio, M., Trois, A., Vallazza, E., Vercellone, S., Verrecchia, F., Vittorini, V., Zambra, A., Zanello, D., and Salotti, L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

SuperAGILE is the hard X-ray monitor of the AGILE gamma ray mission, in orbit since 23$^{rd}$ April 2007. It is an imaging experiment based on a set of four independent silicon strip detectors, equipped with one-dimensional coded masks, operating in the nominal energy range 18-60 keV. The main goal of SuperAGILE is the observation of cosmic sources simultaneously with the main gamma-ray AGILE experiment, the Gamma Ray Imaging Detector (GRID). Given its $\sim$steradian-wide field of view and its $\sim$15 mCrab day-sensitivity, SuperAGILE is also well suited for the long-term monitoring of Galactic compact objects and the detection of bright transients. The SuperAGILE detector properties and design allow for a 6 arcmin angular resolution in each of the two independent orthogonal projections of the celestial coordinates. Photon by photon data are continuously available by the experiment telemetry, and are used to derive images and fluxes of individual sources, with integration times depending on the source intensity and position in the field of view. In this paper we report on the main scientific results achieved by SuperAGILE over its first two years in orbit, until April 2009., Comment: Accepted for publication on Astronomy & Astrophysics

Published

2009