Your search keyword '"Ballabriga Sune, R."' showing total 6 results

1. A simulator for Timepix-like pixel front-ends

Author

Ballabriga Sune, R., primary, Bromberger, H., additional, Campbell, M., additional, Llopart Cudie, X., additional, Christodoulou, P., additional, Sriskaran, V., additional, and Tlustos, L., additional

Published

2024

2. Detector technologies for CLIC

Author

Dannheim, D., Krüger, K., Levy, A., Nürnberg, A., Sicking, E., Abusleme Hoffman, A.C., Parès, G., Fritzsch, T., Rothermund, M., Jansen, H., Sefkow, F., Velyka, A., Schwandt, J., Perić, I., Emberger, L., Graf, C., Macchiolo, A., Simon, F., Szalay, M., van der Kolk, N., Abramowicz, H., Benhammou, Y., Borysov, O., Borysova, M., Joffe, A., Kananov, S., Levy, I., Eigen, G., Bugiel, R., Bugiel, S., Firlej, M., Fiutowski, T.A., Idzik, M., Moroń, J., Świentek, K.P., Terlecki, P., Brückman de Renstrom, P., Turbiarz, B., Wojtoń, T., Zawiejski, L.K., Firu, E., Ghenescu, V., Neagu, A.T., Preda, T., Boyko, I., Nefedov, Yu., Rymbekova, A., Sapronov, A., Shelkov, G., Zhemchugov, A., Ruiz-Jimeno, A., Vila, I., Fullana, E., Fuster, J., Gomis Lopez, P., Perelló, M., Villarejo, M.A., Vos, M., Alozy, J., Alipour Tehrani, N., Arominski, D., Ballabriga Sune, R., Boyer, F., Brondolin, E., Buckland, M., Campbell, M., Dette, K., Duarte Ramos, F., Egidos Plaja, N., Elsener, K., Fiergolski, A., Fuentes Rojas, C., Grefe, C., Hynds, D., Klempt, W., Kremastiotis, I., Kröger, J., Kulis, S., Leogrande, E., Linssen, L., Llopart Cudie, X., Lucaci-Timoce, A., Munker, M., Musa, L., Nuiry, F.-X., Perez Codina, E., Pernegger, H., Petrič, M., Pitters, F., Quast, T., Redford, S., Riedler, P., Roloff, P., Sailer, A., Santin, E., Schnoor, U., Sielewicz, K., Simoniello, R., Snoeys, W., Spannagel, S., Sroka, S., Ström, R., Valerio, P., van Dam, S., van der Kraaij, E., Vǎnát, T., Viazlo, O., Vicente Barreto Pinto, M., Weber, M.A., Williams, M., Wolters, K., Benoit, M., Iacobucci, G., Sultan, D M S, Bosley, R.R., Price, T., Watson, M.F., Watson, N.K., Winter, A.G., Goldstein, J., Green, S., Marshall, J.S., Thomson, M.A., Xu, B., Casse, G., Vossebeld, J., Coates, T., Salvatore, F., Repond, J., Xia, L., Kenney, C., and Tomada, A.

Subjects

Physics::Instrumentation and Detectors, Physics::Accelerator Physics, High Energy Physics::Experiment, Detectors and Experimental Techniques, physics.ins-det

Abstract

The Compact Linear Collider (CLIC) is a high-energy high-luminosity linear electron-positron collider under development. It is foreseen to be built and operated in three stages, at centre-of-mass energies of 380 GeV, 1.5 TeV and 3 TeV, respectively. It offers a rich physics program including direct searches as well as the probing of new physics through a broad set of precision measurements of Standard Model processes, particularly in the Higgs-boson and top-quark sectors. The precision required for such measurements and the specific conditions imposed by the beam dimensions and time structure put strict requirements on the detector design and technology. This includes low-mass vertexing and tracking systems with small cells, highly granular imaging calorimeters, as well as a precise hit-time resolution and power-pulsed operation for all subsystems. A conceptual design for the CLIC detector system was published in 2012. Since then, ambitious R&D programmes for silicon vertex and tracking detectors, as well as for calorimeters have been pursued within the CLICdp, CALICE and FCAL collaborations, addressing the challenging detector requirements with innovative technologies. This report introduces the experimental environment and detector requirements at CLIC and reviews the current status and future plans for detector technology R&D.

Published

2019

3. CERN Yellow Reports: Monographs, Vol 1 (2019): Detector Technologies for CLIC

Author

Abusleme Hoffman, A. C., Parès, G., Emberger, L., Sroka, S., Ström, R., Valerio, P., van Dam, S., van der Kraaij, E., Vǎnát, T., Viazlo, O., Vicente Barreto Pinto, M., Weber, M. A., Williams, M., Graf, C., Wolters, K., Benoit, M., Iacobucci, G., Sultan, D. M. S., Bosley, R. R., Price, T., Watson, M. F., Watson, N. K., Winter, A. G., Goldstein, J., Macchiolo, A., Green, S., Marshall, J. S., Thomson, M. A., Xu, B., Casse, G., Vossebeld, J., Coates, T., Salvatore, F., Repond, J., Xia, L., Simon, F., Kenney, C., Tomada, A., Szalay, M., van der Kolk, N., Abramowicz, H., Benhammou, Y., Borysov, Oleksandr, Borysova, M., Fritzsch, T., Joffe, A., Kananov, S., Levy, A., Levy, I., Eigen, G., Bugiel, R., Bugiel, S., Firlej, M., Fiutowski, T. A., Idzik, M., Rothermund, M., Moroń, J., Świentek, K. P., Terlecki, P., Brückman de Renstrom, P., Turbiarz, B., Wojtoń, T., Zawiejski, L. K., Firu, E., Ghenescu, V., Neagu, A. T., Jansen, H., Preda, T., Boyko, I., Nefedov, Yu., Rymbekova, A., Sapronov, A., Shelkov, G., Zhemchugov, A., Ruiz-Jimeno, A., Vila, I., Fullana, E., Krüger, K., Fuster, J., Gomis Lopez, P., Perelló, M., Villarejo, M. A., Vos, M., Alozy, J., Alipour Tehrani, N., Arominski, D., Ballabriga Sune, R., Boyer, F., Sefkow, F., Brondolin, E., Buckland, M., Campbell, M., Dannheim, D., Dette, K., Duarte Ramos, F., Egidos Plaja, N., Elsener, K., Fiergolski, A., Fuentes Rojas, C., Velyka, A., Grefe, C., Hynds, D., Klempt, W., Kremastiotis, I., Kröger, J., Kulis, S., Leogrande, E., Linssen, L., Llopart Cudie, X., Lucaci-Timoce, A., Schwandt, J., Munker, M., Musa, L., Nürnberg, A., Nuiry, F.-X., Perez Codina, E., Pernegger, H., Petrič, M., Pitters, F., Quast, T., Redford, S., Perić, I., Riedler, P., Roloff, P., Sailer, A., Santin, E., Schnoor, U., Sicking, E., Sielewicz, K., Simoniello, R., Snoeys, W., and Spannagel, S.

Subjects

Physics::Instrumentation and Detectors, Physics::Accelerator Physics, High Energy Physics::Experiment

Abstract

CERN 152 pp. (2019). doi:10.23731/CYRM-2019-001, The Compact Linear Collider (CLIC) is a high-energy high-luminosity linear electron-positron collider under development. It is foreseen to be built and operated in three stages, at centre-of-mass energies of 380 GeV, 1.5 TeV and 3 TeV, respectively. It offers a rich physics program including direct searches as well as the probing of new physics through a broad set of precision measurements of Standard Model processes, particularly in the Higgs-boson and top-quark sectors. The precision required for such measurements and the specific conditions imposed by the beam dimensions and time structure put strict requirements on the detector design and technology. This includes low-mass vertexing and tracking systems with small cells, highly granular imaging calorimeters, as well as a precise hit-time resolution and power-pulsed operation for all subsystems. A conceptual design for the CLIC detector system was published in 2012. Since then, ambitious R&D programmes for silicon vertex and tracking detectors, as well as for calorimeters have been pursued within the CLICdp, CALICE and FCAL collaborations, addressing the challenging detector requirements with innovative technologies. This report introduces the experimental environment and detector requirements at CLIC and reviews the current status and future plans for detector technology R&D., Published by CERN

Published

2019

4. Updated baseline for a staged Compact Linear Collider

Author

Boland, M J, Felzmann, U, Giansiracusa, P J, Lucas, T G, Rassool, R P, Balazs, C, Charles, T K, Afanaciev, K, Emeliantchik, I, Ignatenko, A, Makarenko, V, Shumeiko, N, Patapenka, A, Zhuk, I, Abusleme Hoffman, A C, Diaz Gutierrez, M A, Gonzalez, M Vogel, Chi, Y, He, X, Pei, G, Pei, S, Shu, G, Wang, X, Zhang, J, Zhao, F, Zhou, Z, Chen, H, Gao, Y, Huang, W, Kuang, Y P, Li, B, Li, Y, Shao, J, Shi, J, Tang, C, Wu, X, Ma, L, Han, Y, Fang, W, Gu, Q, Huang, D, Huang, X, Tan, J, Wang, Z, Zhao, Z, Laštovička, T, Uggerhoj, U, Wistisen, T N, Aabloo, A, Eimre, K, Kuppart, K, Vigonski, S, Zadin, V, Aicheler, M, Baibuz, E, Brücken, E, Djurabekova, F, Eerola, P, Garcia, F, Haeggström, E, Huitu, K, Jansson, V, Karimaki, V, Kassamakov, I, Kyritsakis, A, Lehti, S, Meriläinen, A, Montonen, R, Niinikoski, T, Nordlund, K, Österberg, K, Parekh, M, Törnqvist, N A, Väinölä, J, Veske, M, Farabolini, W, Mollard, A, Napoly, O, Peauger, F, Plouin, J, Bambade, P, Chaikovska, I, Chehab, R, Davier, M, Kaabi, W, Kou, E, LeDiberder, F, Pöschl, R, Zerwas, D, Aimard, B, Balik, G, Baud, J-P, Blaising, J-J, Brunetti, L, Chefdeville, M, Drancourt, C, Geoffroy, N, Jacquemier, J, Jeremie, A, Karyotakis, Y, Nappa, J M, Vilalte, S, Vouters, G, Bernard, A, Peric, I, Gabriel, M, Simon, F, Szalay, M, van der Kolk, N, Alexopoulos, T, Gazis, E N, Gazis, N, Ikarios, E, Kostopoulos, V, Kourkoulis, S, Gupta, P D, Shrivastava, P, Arfaei, H, Dayyani, M K, Ghasem, H, Hajari, S S, Shaker, H, Ashkenazy, Y, Abramowicz, H, Benhammou, Y, Borysov, O, Kananov, S, Levy, A, Levy, I, Rosenblat, O, D'Auria, G, Di Mitri, S, Abe, T, Aryshev, A, Higo, T, Makida, Y, Matsumoto, S, Shidara, T, Takatomi, T, Takubo, Y, Tauchi, T, Toge, N, Ueno, K, Urakawa, J, Yamamoto, A, Yamanaka, M, Raboanary, R, Hart, R, van der Graaf, H, Eigen, G, Zalieckas, J, Adli, E, Lillestøl, R, Malina, L, Pfingstner, J, Sjobak, K N, Ahmed, W, Asghar, M I, Hoorani, H, Bugiel, S, Dasgupta, R, Firlej, M, Fiutowski, T A, Idzik, M, Kopec, M, Kuczynska, M, Moron, J, Swientek, K P, Daniluk, W, Krupa, B, Kucharczyk, M, Lesiak, T, Moszczynski, A, Pawlik, B, Sopicki, P, Wojtoń, T, Zawiejski, L, Kalinowski, J, Krawczyk, M, Żarnecki, A F, Firu, E, Ghenescu, V, Neagu, A T, Preda, T, Zgura, I-S, Aloev, A, Azaryan, N, Budagov, J, Chizhov, M, Filippova, M, Glagolev, V, Gongadze, A, Grigoryan, S, Gudkov, D, Karjavine, V, Lyablin, M, Olyunin, A, Samochkine, A, Sapronov, A, Shirkov, G, Soldatov, V, Solodko, A, Solodko, E, Trubnikov, G, Tyapkin, I, Uzhinsky, V, Vorozhtov, A, Levichev, E, Mezentsev, N, Piminov, P, Shatilov, D, Vobly, P, Zolotarev, K, Bozovic-Jelisavcic, I, Kacarevic, G, Lukic, S, Milutinovic-Dumbelovic, G, Pandurovic, M, Iriso, U, Perez, F, Pont, M, Trenado, J, Aguilar-Benitez, M, Calero, J, Garcia-Tabares, L, Gavela, D, Gutierrez, J L, Lopez, D, Toral, F, Moya, D, Ruiz-Jimeno, A, Vila, I, Argyropoulos, T, Blanch Gutierrez, C, Boronat, M, Esperante, D, Faus-Golfe, A, Fuster, J, Fuster Martinez, N, Galindo Muñoz, N, García, I, Giner Navarro, J, Ros, E, Vos, M, Brenner, R, Ekelöf, T, Jacewicz, M, Ögren, J, Olvegård, M, Ruber, R, Ziemann, V, Aguglia, D, Alipour Tehrani, N, Andersson, A, Andrianala, F, Antoniou, F, Artoos, K, Atieh, S, Ballabriga Sune, R, Barnes, M J, Barranco Garcia, J, Bartosik, H, Belver-Aguilar, C, Benot Morell, A, Bett, D R, Bettoni, S, Blanchot, G, Blanco Garcia, O, Bonnin, X A, Brunner, O, Burkhardt, H, Calatroni, S, Campbell, M, Catalan Lasheras, N, Cerqueira Bastos, M, Cherif, A, Chevallay, E, Constance, B, Corsini, R, Cure, B, Curt, S, Dalena, B, Dannheim, D, De Michele, G, De Oliveira, L, Deelen, N, Delahaye, J P, Dobers, T, Doebert, S, Draper, M, Duarte Ramos, F, Dubrovskiy, A, Elsener, K, Esberg, J, Esposito, M, Fedosseev, V, Ferracin, P, Fiergolski, A, Foraz, K, Fowler, A, Friebel, F, Fuchs, J-F, Fuentes Rojas, C A, Gaddi, A, Garcia Fajardo, L, Garcia Morales, H, Garion, C, Gatignon, L, Gayde, J-C, Gerwig, H, Goldblatt, A N, Grefe, C, Grudiev, A, Guillot-Vignot, F G, Gutt-Mostowy, M L, Hauschild, M, Hessler, C, Holma, J K, Holzer, E, Hourican, M, Hynds, D, Inntjore Levinsen, Y, Jeanneret, B, Jensen, E, Jonker, M, Kastriotou, M, Kemppinen, J M K, Kieffer, R B, Klempt, W, Kononenko, O, Korsback, A, Koukovini Platia, E, Kovermann, J W, Kozsar, C-I, Kremastiotis, I, Kulis, S, Latina, A, Leaux, F, Lebrun, P, Lefevre, T, Linssen, L, Llopart Cudie, X, Maier, A A, Mainaud Durand, H, Manosperti, E, Marelli, C, Marin Lacoma, E, Martin, R, Mazzoni, S, Mcmonagle, G, Mete, O, Mether, L M, Modena, M, Münker, R M, Muranaka, T, Nebot Del Busto, E, Nikiforou, N, Nisbet, D, Nonglaton, J-M, Nuiry, F X, Nürnberg, A, Olvegard, M, Osborne, J, Papadopoulou, S, Papaphilippou, Y, Passarelli, A, Patecki, M, Pazdera, L, Pellegrini, D, Pepitone, K, Perez Codina, E, Perez Fontenla, A, Persson, T H B, Petrič, M, Pitters, F, Pittet, S, Plassard, F, Rajamak, R, Redford, S, Renier, Y, Rey, S F, Riddone, G, Rinolfi, L, Rodriguez Castro, E, Roloff, P, Rossi, C, Rude, V, Rumolo, G, Sailer, A, Santin, E, Schlatter, D, Schmickler, H, Schulte, D, Shipman, N, Sicking, E, Simoniello, R, Skowronski, P K, Sobrino Mompean, P, Soby, L, Sosin, M P, Sroka, S, Stapnes, S, Sterbini, G, Ström, R, Syratchev, I, Tecker, F, Thonet, P A, Timeo, L, Timko, H, Tomas Garcia, R, Valerio, P, Vamvakas, A L, Vivoli, A, Weber, M A, Wegner, R, Wendt, M, Woolley, B, Wuensch, W, Uythoven, J, Zha, H, Zisopoulos, P, Benoit, M, Vicente Barreto Pinto, M, Bopp, M, Braun, H H, Csatari Divall, M, Dehler, M, Garvey, T, Raguin, J Y, Rivkin, L, Zennaro, R, Aksoy, A, Nergiz, Z, Pilicer, E, Tapan, I, Yavas, O, Baturin, V, Kholodov, R, Lebedynskyi, S, Miroshnichenko, V, Mordyk, S, Profatilova, I, Storizhko, V, Watson, N, Winter, A, Goldstein, J, Green, S, Marshall, J S, Thomson, M A, Xu, B, Gillespie, W A, Pan, R, Tyrk, M A, Protopopescu, D, Robson, A, Apsimon, R, Bailey, I, Burt, G, Constable, D, Dexter, A, Karimian, S, Lingwood, C, Buckland, M D, Casse, G, Vossebeld, J, Bosco, A, Karataev, P, Kruchinin, K, Lekomtsev, K, Nevay, L, Snuverink, J, Yamakawa, E, Boisvert, V, Boogert, S, Boorman, G, Gibson, S, Lyapin, A, Shields, W, Teixeira-Dias, P, West, S, Jones, R, Joshi, N, Bodenstein, R, Burrows, P N, Christian, G B, Gamba, D, Perry, C, Roberts, J, Clarke, J A, Collomb, N A, Jamison, S P, Shepherd, B J A, Walsh, D, Demarteau, M, Repond, J, Weerts, H, Xia, L, Wells, J D, Adolphsen, C, Barklow, T, Breidenbach, M, Graf, N, Hewett, J., Markiewicz, T, McCormick, D, Moffeit, K, Nosochkov, Y, Oriunno, M, Phinney, N, Rizzo, T, Tantawi, S, Wang, F, Wang, J, White, G, and Woodley, M

Subjects

hep-ex, Physics::Accelerator Physics, High Energy Physics::Experiment, Accelerators and Storage Rings, Particle Physics - Experiment, physics.acc-ph

Abstract

The Compact Linear Collider (CLIC) is a multi-TeV high-luminosity linear e+e- collider under development. For an optimal exploitation of its physics potential, CLIC is foreseen to be built and operated in a staged approach with three centre-of-mass energy stages ranging from a few hundred GeV up to 3 TeV. The first stage will focus on precision Standard Model physics, in particular Higgs and top-quark measurements. Subsequent stages will focus on measurements of rare Higgs processes, as well as searches for new physics processes and precision measurements of new states, e.g. states previously discovered at LHC or at CLIC itself. In the 2012 CLIC Conceptual Design Report, a fully optimised 3 TeV collider was presented, while the proposed lower energy stages were not studied to the same level of detail. This report presents an updated baseline staging scenario for CLIC. The scenario is the result of a comprehensive study addressing the performance, cost and power of the CLIC accelerator complex as a function of centre-of-mass energy and it targets optimal physics output based on the current physics landscape. The optimised staging scenario foresees three main centre-of-mass energy stages at 380 GeV, 1.5 TeV and 3 TeV for a full CLIC programme spanning 22 years. For the first stage, an alternative to the CLIC drive beam scheme is presented in which the main linac power is produced using X-band klystrons. The Compact Linear Collider (CLIC) is a multi-TeV high-luminosity linear e+e- collider under development. For an optimal exploitation of its physics potential, CLIC is foreseen to be built and operated in a staged approach with three centre-of-mass energy stages ranging from a few hundred GeV up to 3 TeV. The first stage will focus on precision Standard Model physics, in particular Higgs and top-quark measurements. Subsequent stages will focus on measurements of rare Higgs processes, as well as searches for new physics processes and precision measurements of new states, e.g. states previously discovered at LHC or at CLIC itself. In the 2012 CLIC Conceptual Design Report, a fully optimised 3 TeV collider was presented, while the proposed lower energy stages were not studied to the same level of detail. This report presents an updated baseline staging scenario for CLIC. The scenario is the result of a comprehensive study addressing the performance, cost and power of the CLIC accelerator complex as a function of centre-of-mass energy and it targets optimal physics output based on the current physics landscape. The optimised staging scenario foresees three main centre-of-mass energy stages at 380 GeV, 1.5 TeV and 3 TeV for a full CLIC programme spanning 22 years. For the first stage, an alternative to the CLIC drive beam scheme is presented in which the main linac power is produced using X-band klystrons.

Published

2016

5. Characterization of a hybrid energy-resolving photon-counting detector

Author

Zang, A., additional, Pelzer, G., additional, Anton, G., additional, Ballabriga Sune, R., additional, Bisello, F., additional, Campbell, M., additional, Fauler, A., additional, Fiederle, M., additional, Llopart Cudie, X., additional, Ritter, I., additional, Tennert, F., additional, Wölfel, S., additional, Wong, W. S., additional, and Michel, T., additional

Published

2014

6. Characterization of a hybrid energy-resolving photon-counting detector

Author

Whiting, Bruce R., Hoeschen, Christoph, Zang, A., Pelzer, G., Anton, G., Ballabriga Sune, R., Bisello, F., Campbell, M., Fauler, A., Fiederle, M., Llopart Cudie, X., Ritter, I., Tennert, F., Wölfel, S., Wong, W. S., and Michel, T.

Published

2014