Your search keyword '"GERVINO G"' showing total 1,107 results

201. Origin of stardust unveiled by the new LUNA rate of the 17O(p,α)14N reaction

Author

Lugaro, M., Karakas, A. I., Bruno, C. G., Aliotta, M., Nittler, L. R., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Caciolli, A., Cavanna, F., Ciani, G. F., Corvisiero, P., Davinson, T., Depalo, R., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Z., Gervino, G., Guglielmetti, A., Gyürky, C. G. G., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Prati, P., Scott, D. A., Straniero, O., Strieder, F., Szücs, T., Takács, M. P., and Trezzi, D.

Subjects

Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

Stardust grains recovered from meteorites provide high-precision snapshots of the isotopic compositions resulting from nuclear reactions in the stars in which they formed. Establishing their stellar sites of origin, however, often proves difficult. One long-standing problem is that a large fraction of meteoritic stardust is predicted to have originated from the late evolutionary phase of stars with initial mass between roughly 4 and 8 solar masses, however, no grains have been found with an isotopic composition that matches that expected in these stars. This problem points to serious gaps in our understanding of the lifecycle of stars and dust in the Galaxy. Here we show that the new, increased rate of the 17O + p → 14N + α nuclear reaction, based on a recent underground experiment, produces 17O/16O isotopic ratios that match those observed in a population of stardust grains, provided that the burning occurs at relatively high temperatures (60–80 million K). These are the temperatures achieved at the base of the convective envelope during the late evolutionary phase of 4 to 8 solar mass stars, which reveals them as the site of origin of the grains. This result provides the first direct evidence that these stars contributed to the dust inventory from which the Solar System formed.

Published

2017

202. Stopping power, electron screening and the astrophysical S( E) factor of d( 3He,p) 4He

Author

Costantini, H., Formicola, A., Junker, M., Bonetti, R., Broggini, C., Campajola, L., Corvisiero, P., D'Onofrio, A., Fubini, A., Gervino, G., Gialanella, L., Greife, U., Guglielmetti, A., Gustavino, C., Imbriani, G., Ordine, A., Prada Moroni, P.G., Prati, P., Roca, V., Rogalla, D., Rolfs, C., Romano, M., Schümann, F., Straniero, O., Strieder, F., Terrasi, F., Trautvetter, H.P., and Zavatarelli, S.

Published

2000

203. Precise measurement of Σ beam asymmetry for positive pion photoproduction on the proton from 550 to 1100 MeV

Author

Ajaka, J, Bartalini, O, Battaglieri, M, Bellini, V, Bocquet, J.P, Calvat, P.M, Capogni, M, Castoldi, M, Ciciani, L, D'Angelo, A, Didelez, J.-P, Di Salvo, R, Duval, M.-A, Gaulard, C, Gervino, G, Ghio, F, Girolami, B, Guidal, M, Guinault, E, Hourany, E, Jejcic, A, Kilvington, I, Kouznetsov, V, Lapik, A, Levi Sandri, P, Lleres, A, Morriciani, D, Nedorezov, V, Nicoletti, L, Rebreyend, D, Renard, F, Ripani, M, Rudnev, N, Schaerf, C, Turinge, A, and Zucchiatti, A

Published

2000

204. Three New Low-Energy Resonances in the Ne 22 (p,γ) Na 23 Reaction

Author

Cavanna, F., Depalo, R., Aliotta, M., Anders, M., Bemmerer, D., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Corvisiero, P., Davinson, T., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Z.s., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G.y., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Prati, P., Scott, D. A., Somorjai, E., Straniero, O., Strieder, F., Szücs, T., Takács, M. P., Trezzi, D., BEST, ANDREAS, DI LEVA, ANTONINO, IMBRIANI, GIANLUCA, Cavanna, F., Depalo, R., Aliotta, M., Anders, M., Bemmerer, D., Best, Andrea, Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Corvisiero, P., Davinson, T., DI LEVA, Antonino, Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Z. s., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G. y., Imbriani, Gianluca, Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Prati, P., Scott, D. A., Somorjai, E., Straniero, O., Strieder, F., Szücs, T., Takács, M. P., and Trezzi, D.

Subjects

Physics and Astronomy (all)

Abstract

The Ne-22(p,gamma)Na-23 reaction takes part in the neon-sodium cycle of hydrogen burning. This cycle affects the synthesis of the elements between Ne-20 and Al-27 in asymptotic giant branch stars and novae. The Ne-22(p,gamma)Na-23 reaction rate is very uncertain because of a large number of unobserved resonances lying in the Gamow window. At proton energies below 400 keV, only upper limits exist in the literature for the resonance strengths. Previous reaction rate evaluations differ by large factors. In the present work, the first direct observations of the Ne-22(p,gamma)Na-23 resonances at 156.2, 189.5, and 259.7 keV are reported. Their resonance strengths are derived with 2%-7% uncertainty. In addition, upper limits for three other resonances are greatly reduced. Data are taken using a windowless Ne-22 gas target and high-purity germanium detectors at the Laboratory for Underground Nuclear Astrophysics in the Gran Sasso laboratory of the National Institute for Nuclear Physics, Italy, taking advantage of the ultralow background observed deep underground. The new reaction rate is a factor of 20 higher than the recent evaluation at a temperature of 0.1 GK, relevant to nucleosynthesis in asymptotic giant branch stars.

Published

2015

205. Resonance strengths in the O-17,O-18(p, alpha)N-14,N-15 reactions and background suppression underground Commissioning of a new setup for charged-particle detection at LUNA

Author

LUNA Collaboration, Null, Bruno, C. G., Scott, D. A., Formicola, A., Aliotta, M., Davinson, T., Anders, M., BEST, ANDREAS, Bemmerer, D., Broggini, C., Caciolli, A., Cavanna, F., Corvisiero, P., Depalo, R., Elekes, Z., Fülöp, Z.s., Gervino, G., Griffin, C. J., Guglielmetti, A., Gustavino, C., Gyürky, G.y., Junker, M., Menegazzo, R., Napolitani, E., Prati, P., Somorjai, E., Straniero, O., Strieder, F., Szücs, T., Trezzi, D., DI LEVA, ANTONINO, IMBRIANI, GIANLUCA, LUNA Collaboration, Null, Bruno, C. G., Scott, D. A., Formicola, A., Aliotta, M., Davinson, T., Anders, M., Best, Andrea, Bemmerer, D., Broggini, C., Caciolli, A., Cavanna, F., Corvisiero, P., Depalo, R., DI LEVA, Antonino, Elekes, Z., Fülöp, Z. s., Gervino, G., Griffin, C. J., Guglielmetti, A., Gustavino, C., Gyürky, G. y., Imbriani, Gianluca, Junker, M., Menegazzo, R., Napolitani, E., Prati, P., Somorjai, E., Straniero, O., Strieder, F., Szücs, T., and Trezzi, D.

Subjects

NUCLEAR ASTROPHYSICS, IONS, Physics, Nuclear and High Energy Physics, Hadron, Resonance, Omega, Spectral line, Ion, Nuclear physics, LIGHT, ASYMPTOTIC GIANT BRANCH, Background suppression, Nuclear astrophysics, SPECTRA, Nuclear fusion, Experimental Nuclear Astrophysics, Nuclear and High Energy Physics

Abstract

We report on measurements of resonance strengths and energies for the $ E_{p} = 151$ and 193 keV resonances in the 18O(p, $\alpha$ )15N and 17O(p, $\alpha$ )14N reactions, respectively, obtained during commissioning of a new setup for alpha-particle detection studies at the LUNA underground laboratory. Our values, $\omega\gamma (151)=164.2\pm 0.9_{stat} {}^{+12.1}_{-11.7} {}_{syst}$ meV and $\omega\gamma (193)=1.68\pm 0.03_{stat} \pm 0.12_{syst}$ meV, are in excellent agreement with those reported in the literature. New values of resonance energies are $ E_{p}=151.2 \pm 0.3$ keV and $ E_{p}=194.8 \pm 0.3$ keV, respectively, this latter with the highest precision to date. Comparative background measurements in silicon detectors overground and underground were also carried out, yielding up to a factor of 15 in background suppression at LUNA at energies around 200keV. This clearly demonstrates the usefulness of underground measurements in charged-particles experiments, especially at low detection energies.

Published

2015

206. Retraction notice to “Neutron detection by large NaI crystal” [Nucl. Inst. Methods Phys. Res. A 824 (2016) 208–209]

Author

Lavagno, A., primary and Gervino, G., additional

Published

2018

207. Strangeness photoproduction at the BGO-OD experiment

Author

Jude, Thomas, primary, Alef, S., additional, Bauer, P., additional, Bayadilov, D., additional, Beck, R., additional, Bieling, J., additional, Bella, A., additional, Boese, S., additional, Braghieri, A., additional, Brinkmann, K., additional, Burdeynyi, D., additional, Cole, P., additional, Di Salvo, R., additional, Elsner, D., additional, Fantini, A., additional, Freyermuth, O., additional, Friedrich, S., additional, Frommberger, F., additional, Gervino, G., additional, Ghio, F., additional, Gridnev, A., additional, Gutz, E., additional, Hammann, D., additional, Hannappel, J., additional, Hillert, W., additional, Jahn, R., additional, Joosten, R., additional, Klein, F., additional, Kohl, K., additional, Krusche, B., additional, Lapik, A.M., additional, Levi Sandri, P., additional, Lisin, V.P., additional, Lopatin, I.V., additional, Mandaglio, G., additional, Messi, F., additional, Messi, R., additional, Metag, V., additional, Moricciani, D., additional, Mushkarenkov, A.N., additional, Nanova, M., additional, Nedorezov, V.G., additional, Novinskiy, D., additional, Pedroni, P., additional, Polonski, A.S., additional, Reitz, B., additional, Romaniuk, M., additional, Scheluchin, G., additional, Schmieden, H., additional, Stugelev, A., additional, Sumachev, V., additional, Tarakanov, V., additional, Vegna, V., additional, Walther, D., additional, Zaunick, H., additional, and Zimmermann, T., additional

Published

2018

208. Improved background suppression for radiative capture reactions at LUNA with HPGe and BGO detectors

Author

Boeltzig, A, primary, Best, A, additional, Imbriani, G, additional, Junker, M, additional, Aliotta, M, additional, Bemmerer, D, additional, Broggini, C, additional, Bruno, C G, additional, Buompane, R, additional, Caciolli, A, additional, Cavanna, F, additional, Chillery, T, additional, Ciani, G F, additional, Corvisiero, P, additional, Csedreki, L, additional, Davinson, T, additional, deBoer, R J, additional, Depalo, R, additional, Leva, A Di, additional, Elekes, Z, additional, Ferraro, F, additional, Fiore, E M, additional, Formicola, A, additional, Fülöp, Z, additional, Gervino, G, additional, Guglielmetti, A, additional, Gustavino, C, additional, Gyürky, G, additional, Kochanek, I, additional, Menegazzo, R, additional, Mossa, V, additional, Pantaleo, F R, additional, Paticchio, V, additional, Perrino, R, additional, Piatti, D, additional, Prati, P, additional, Schiavulli, L, additional, Stöckel, K, additional, Straniero, O, additional, Strieder, F, additional, Szücs, T, additional, Takács, M P, additional, Trezzi, D, additional, Wiescher, M, additional, and Zavatarelli, S, additional

Published

2018

209. The LUNA facility at the National Laboratory of Gran Sasso: recent results and future activities

Author

Prati, P., Bonetti, R., Broggini, C., Campajola, L., Corvisiero, P., D'Alessandro, A., Dessalvi, M., D'Onofrio, A., Fubini, S., Gervino, G., Gialanella, L., Greife, U., Guglielmetti, A., Gustavino, C., Junker, M., Ordine, A., Roca, V., Rolfs, C., Romano, M., Schueman, F., Strieder, F., Terrasi, F., Trautvetter, H.P., and Zavatarelli, S.

Published

1999

210. Experimental setup of the 239Pu neutron capture and fission cross-section measurements at n_TOF, CERN

Author

Sanchez-Caballero Adrian, Alcayne Victor, Andrzejewski Józef, Cano-Ott Daniel, Cardinaels Thomas, Dries Peter, Gawlik-Ramiega Aleksandra, González-Romero Enrique, Heyse Jan, Leinders Gregory, Martínez Trinitario, Mendoza Emilio, Moens Andre, Pérez de Rada Alberto, Perkowski Jarosław, Plompen Arjan, Paradela Carlos, Schillebeeckx Peter, Sibbens Goedele, Van Hecke Karen, Vanaken Koen, Vanleeuw David, Verguts Ken, Verwerft Marc, Wynants Ruud, Aberle Oliver, Altieri Saverio, Amaducci Simone, Babiano-Suarez Victor, Bacak Michael, Balibrea Correa Javier, Beltrami Chiara, Bennett Samuel, Bernardes Ana-Paula, Berthoumieux Eric, Beyer Roland, Boromiza Marian, Bosnar Damir, Caamaño Manuel, Calviño Francisco, Calviani Marco, Casanovas Adria, Castelluccio Donato, Cerutti Francesco, Cescutti Gabriele, Chasapoglou Sotirios, Chiaveri Enrico, Colombetti Paolo, Colonna Nicola, Console Camprini Patrizio, Cortés Guillem, Cortés-Giraldo Miguel, Cosentino Luigi, Cristallo Sergio, Dellmann, Di Castro Mario, Di Maria Salvatore, Diakaki Maria, Dietz Mirco, Domingo-Pardo César, Dressler Rugard, Dupont Emmeric, Durán Ignacio, Eleme Zinovia, Fargier Sylvain, Fernández Begoña, Fernández-Domínguez Beatriz, Finocchiaro Paolo, Fiore Salvatore, Furman Valter, García-Infantes Francisco, Gervino Gianpiero, Gilardoni Simone, Guerrero Carlos, Gunsing Frank, Gustavino Carlo, Hillman William, Jenkins David, Jericha Erwin, Junghans Arnd, Kadi Yacine, Kaperoni Kalliopi, Kaur Gurpreet, Kimura Atsushi, Knapová Ingrid, Kokkoris Michael, Kopatch Yury, Krtička Milan, Kyritsis Nikolaos, Ladarescu Ion, Lederer-Woods Claudia, Lerendegui-Marco Jorge, Lerner Giuseppe, Manna Alice, Masi Alessandro, Massimi Cristian, Mastinu Pierfrancesco, Mastromarco Mario, Maugeri Emilio-Andrea, Mazzone Annamaria, Mengoni Alberto, Michalopoulou Veatriki, Milazzo Paolo, Mucciola Riccardo, Murtas Fabrizio, Musacchio-Gonzalez Elizabeth, Musumarra Agatino, Negret Alexandru, Pérez-Maroto Pablo, Patronis Nikolas, Pavón-Rodríguez José-Antonio, Pellegriti Maria, Petrone Cristina, Pirovano Elisa, Plaza del Olmo Julio, Pomp Stephan, Porras Ignacio, Praena Javier, Quesada José-Manuel, Reifarth René, Rochman Dimitri, Romanets Yuriy, Rubbia Carlo, Sabaté-Gilarte Marta, Schumann Dorothea, Sekhar Adhitya, Smith Gavin, Sosnin Nikolay, Stamati Maria-Elisso, Sturniolo Alessandro, Tagliente Giuseppe, Tarifeño-Saldivia Ariel, Tarrío Diego, Torres-Sánchez Pablo, Vagena, Valenta Stanislav, Variale Vincenzo, Vaz Pedro, Vecchio Gianfranco, Vescovi Diego, Vlachoudis Vasilis, Vlastou Rosa, Wallner Anton, Woods Philip-John, Wright Tobias, Zarrella Roberto, and Žugec Petar

Subjects

Physics, QC1-999

Abstract

The experimental setup of the new measurement of 239Pu fission and capture cross-section in the n_TOF time-of-flight facility at CERN is presented. The measurement aims to address the needs and demands of nuclear data users. The experiment incorporates an innovative fast Fission Fragment Detector and the n_TOF Total Absorption Calorimeter, enabling the implementation of the fission tagging technique. Preliminary results exhibit the robust performance of the detector systems, along with the high quality of the new 239Pu samples. These samples were exclusively produced for this measurement by the European Commission’s Joint Research Centre in Geel.

Published

2024

211. Underground study of the O 17 (p, γ) F 18 reaction relevant for explosive hydrogen burning

Author

Di Leva A, Scott D, Caciolli A, Formicola A, Strieder F, Aliotta M, Anders M, Bemmerer D, Broggini C, Corvisiero P, Elekes Z, Fülöp Z, Gervino G, Guglielmetti A, Gustavino C, Gyürky G, Imbriani G, José J, Junker M, Laubenstein M, Menegazzo R, Napolitani E, Prati P, Rigato V, Roca V, Somorjai E, Salvo C, Straniero O, Szücs T, Trezzi D., TERRASI, Filippo, Di Leva, A, Scott, D, Caciolli, A, Formicola, A, Strieder, F, Aliotta, M, Anders, M, Bemmerer, D, Broggini, C, Corvisiero, P, Elekes, Z, Fülöp, Z, Gervino, G, Guglielmetti, A, Gustavino, C, Gyürky, G, Imbriani, G, José, J, Junker, M, Laubenstein, M, Menegazzo, R, Napolitani, E, Prati, P, Rigato, V, Roca, V, Somorjai, E, Salvo, C, Straniero, O, Szücs, T, Terrasi, Filippo, and Trezzi, D.

Published

2014

212. Ultra-sensitive gamma-ray spectroscopy set-up for investigating primordial lithium problem

Author

Gervino, G., Gustavino, C., Trezzi, D., Aliotta, M., Anders, M., Boeltzig, A., Daniel Bemmerer, Best, A., Broggini, C., Bruno, C., Caciolli, A., Cavanna, F., Corvisiero, P., Davinson, T., Depalo, R., Dileva, A., Elekes, Z., Ferraro, F., Formicola, A., Fulop, Zs, Guglielmetti, A., Gyurky, Gy, Imbriani, G., Junker, M., Menegazzo, R., Prati, P., Scott, D. A., Straniero, O., and Szucs, T.

Subjects

Gamma spectroscopy, Underground Physics, Lithium problem

Published

2016

213. Direct measurement of low-energy 22Ne(p,γ)23Na resonances

Author

Depalo, R., Cavanna, F., Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Ciani, G. F., Corvisiero, P., Davinson, T., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Z., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Prati, P., Straniero, O., Strieder, F., Szücs, T., Takács, M. P., and Trezzi, D.

Abstract

Background: The 22Ne(p,γ)23Na reaction is the most uncertain process in the neon-sodium cycle of hydrogen burning. At temperatures relevant for nucleosynthesis in asymptotic giant branch stars and classical novae, its uncertainty is mainly due to a large number of predicted but hitherto unobserved resonances at low energy. Purpose: A new direct study of low energy 22Ne(p,γ)23Na resonances has been performed at the Laboratory for Underground Nuclear Astrophysics (LUNA), in the Gran Sasso National Laboratory, Italy. Method: The proton capture on 22Ne was investigated in direct kinematics, delivering an intense proton beam to a 22Ne gas target. γ rays were detected with two high-purity germanium detectors enclosed in a copper and lead shielding suppressing environmental radioactivity. Results: Three resonances at 156.2 keV (ωγ = (1.48 ± 0.10) · 10−7 eV), 189.5 keV (ωγ = (1.87±0.06)·10−6 eV) and 259.7 keV (ωγ = (6.89±0.16)·10−6 eV) proton beam energy, respec- tively, have been observed for the first time. For the levels at Ex = 8943.5, 8975.3, and 9042.4 keV excitation energy corresponding to the new resonances, the γ-decay branching ratios have been precisely measured. Three additional, tentative resonances at 71, 105 and 215 keV proton beam energy, respectively, were not observed here. For the strengths of these resonances, experimental upper limits have been derived that are significantly more stringent than the upper limits reported in the literature. Conclusions: Based on the present experimental data and also previous literature data, an updated thermonuclear reaction rate is provided in tabular and parametric form. The new reaction rate is significantly higher than previous evaluations at temperatures of 0.08-0.3 GK.

Published

2016

214. Direct measurement of low-energy Ne 22 (p,γ) Na 23 resonances

Author

Depalo, R., Cavanna, F., Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Ciani, G. F., Corvisiero, P., Davinson, T., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, Gy., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Prati, P., Straniero, O., Szücs, T., Takács, M. P., and Trezzi, D.

Subjects

Nuclear and High Energy Physics

Published

2016

215. Direct measurement of low-energy 22Ne( p,γ )23Na resonances

Author

Depalo, R., Cavanna, Francesca, Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Ciani, G. F., Corvisiero, Pietro, Davinson, T., Di Leva, A., Elekes, Z., Ferraro, Federico, Formicola, A., Fulop, Z., Gervino, G., Guglielmetti, A., Gustavino, C., Gyurky, G., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Prati, Paolo, Straniero, O., Szucs, T., Takacs, M. P., and Trezzi, D.

Subjects

nuclear astrophysics, hydrogen burning, Ne-na cycle, cross section measurement, underground, hydrogen burning, nuclear astrophysics, underground, Ne-na cycle, cross section measurement

Published

2016

216. Thermodynamic instabilities and statistical effects in protoneutron stars

Author

Gervino, G, primary, Lavagno, A, additional, and Pigato, D, additional

Published

2017

217. Big Bang 6 Li nucleosynthesis studied deep underground (LUNA collaboration)

Author

Trezzi, D., primary, Anders, M., additional, Aliotta, M., additional, Bellini, A., additional, Bemmerer, D., additional, Boeltzig, A., additional, Broggini, C., additional, Bruno, C.G., additional, Caciolli, A., additional, Cavanna, F., additional, Corvisiero, P., additional, Costantini, H., additional, Davinson, T., additional, Depalo, R., additional, Elekes, Z., additional, Erhard, M., additional, Ferraro, F., additional, Formicola, A., additional, Fülop, Zs., additional, Gervino, G., additional, Guglielmetti, A., additional, Gustavino, C., additional, Gyürky, Gy., additional, Junker, M., additional, Lemut, A., additional, Marta, M., additional, Mazzocchi, C., additional, Menegazzo, R., additional, Mossa, V., additional, Pantaleo, F., additional, Prati, P., additional, Rossi Alvarez, C., additional, Scott, D.A., additional, Somorjai, E., additional, Straniero, O., additional, Szücs, T., additional, and Takacs, M., additional

Published

2017

218. The impact of the revised17O(p,α)14N reaction rate on17O stellar abundances and yields

Author

Straniero, O., primary, Bruno, C. G., additional, Aliotta, M., additional, Best, A., additional, Boeltzig, A., additional, Bemmerer, D., additional, Broggini, C., additional, Caciolli, A., additional, Cavanna, F., additional, Ciani, G. F., additional, Corvisiero, P., additional, Cristallo, S., additional, Davinson, T., additional, Depalo, R., additional, Di Leva, A., additional, Elekes, Z., additional, Ferraro, F., additional, Formicola, A., additional, Fülöp, Zs., additional, Gervino, G., additional, Guglielmetti, A., additional, Gustavino, C., additional, Gyürky, G., additional, Imbriani, G., additional, Junker, M., additional, Menegazzo, R., additional, Mossa, V., additional, Pantaleo, F. R., additional, Piatti, D., additional, Piersanti, L., additional, Prati, P., additional, Samorjai, E., additional, Strieder, F., additional, Szücs, T., additional, Takács, M. P., additional, and Trezzi, D., additional

Published

2017

219. Origin of meteoritic stardust unveiled by a revised proton-capture rate of 17O

Author

Lugaro, M., primary, Karakas, A. I., additional, Bruno, C. G., additional, Aliotta, M., additional, Nittler, L. R., additional, Bemmerer, D., additional, Best, A., additional, Boeltzig, A., additional, Broggini, C., additional, Caciolli, A., additional, Cavanna, F., additional, Ciani, G. F., additional, Corvisiero, P., additional, Davinson, T., additional, Depalo, R., additional, Di Leva, A., additional, Elekes, Z., additional, Ferraro, F., additional, Formicola, A., additional, Fülöp, Zs., additional, Gervino, G., additional, Guglielmetti, A., additional, Gustavino, C., additional, Gyürky, Gy., additional, Imbriani, G., additional, Junker, M., additional, Menegazzo, R., additional, Mossa, V., additional, Pantaleo, F. R., additional, Piatti, D., additional, Prati, P., additional, Scott, D. A., additional, Straniero, O., additional, Strieder, F., additional, Szücs, T., additional, Takács, M. P., additional, and Trezzi, D., additional

Published

2017

220. Evidence for a narrow structure at W∼1.68 GeV in η photoproduction off the neutron

Author

Kuznetsov, V., Churikova, S., Gervino, G., Ghio, F., Girolami, B., Ivanov, D., Jang, J., Kim, A., Kim, W., Ni, A., Vorobiev, Yu., Yurov, M., and Zabrodin, A.

Subjects

Nuclear and High Energy Physics

Published

2007

221. First measurement of the Σ beam asymmetry in (Formula presented.) photoproduction off the proton near threshold

Author

Levi Sandri, P, Mandaglio, G, De Leo, V, Bartalini, O, Bellini, V, Bocquet, J, Capogni, M, Curciarello, F, Didelez, J, D'Angelo, A, Di Salvo, R, Fantini, A, Franco, D, Gervino, G, Ghio, F, Girolami, B, Giusa, A, Lapik, A, Lleres, A, Mammoliti, F, Manganaro, M, Moricciani, D, Mushkarenkov, A, Nedorezov, V, Randieri, C, Rebreyend, D, Rudnev, N, Russo, G, Schaerf, C, Sperduto, M, Sutera, M, Turinge, A, Vegna, V, and Zonta, I

Subjects

BARYONS, PHOTON, PARTIAL-WAVE ANALYSIS, PSEUDOSCALAR-MESON PHOTOPRODUCTION, PION-PHOTOPRODUCTION, SPIN OBSERVABLES, NUCLEON, ELECTROPRODUCTION, BACKSCATTERING, RESONANCES, Settore FIS/04 - Fisica Nucleare e Subnucleare

Published

2015

222. First Measurement of the $\Sigma$ Beam Asymmetry in $\eta^{\prime}$ Photoproduction off the Proton near Threshold

Author

Sandri, P. Levi, Mandaglio, G., De Leo, V., Bartalini, O., Bellini, V., Bocquet, J. P., Capogni, M., Curciarello, F., D'Angelo, A., Didelez, J. P., Di Salvo, R., Fantini, A., Franco, D., Gaulard, C., Gervino, G., Ghio, F., Giardina, G., Girolami, B., Giusa, A., Lapik, A., Lleres, A., Mammoliti, F., Manganaro, M., Moricciani, D., Mushkarenkov, A., Nedorezov, V., Randieri, C., Rebreyend, D., Rudnev, N., Russo, G., Schaerf, C., Sperduto, M. L., Sutera, M. C., Turinge, A., Vegna, V., Zonta, I., Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), and GRAAL

Subjects

Particle physics, Nuclear and High Energy Physics, Photon, Proton, Meson, media_common.quotation_subject, Hadron, Elementary particle, PION-PHOTOPRODUCTION, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Asymmetry, Nuclear physics, 0103 physical sciences, PSEUDOSCALAR-MESON PHOTOPRODUCTION, PARTIAL-WAVE ANALYSIS, SPIN OBSERVABLES, PHOTON, NUCLEON, ELECTROPRODUCTION, BACKSCATTERING, RESONANCES, BARYONS, 010306 general physics, Nuclear Experiment, media_common, Physics, 010308 nuclear & particles physics, Meson Photoproduction, High Energy Physics::Experiment, Nucleon, Beam (structure)

Abstract

The $\Sigma$ beam asymmetry in $\eta^{\prime}$ photoproduction off the proton was measured at the GrAAL polarised photon beam with incoming photon energies of 1.461 and 1.480 GeV. For both energies the asymmetry as a function of the meson production angle shows a clear structure, more pronounced at the lowest one, with a change of sign around 90$^o$. The observed behaviour is compatible with P-wave D-wave (or S-wave F-wave) interference, the closer to threshold the stronger. The results are compared to the existing state-of-the-art calculations that fail to account for the data., Comment: 6 pages, 4 figures, accepted for publication on Eur. Phys. J A

Published

2015

223. Measurement of the Σ beam asymmetry for the ω photoproduction off the proton and the neutron at the GRAAL experiment

Author

Vegna, V, D'Angelo, A, Bartalini, O, Bellini, V, Bocquet, J, Capogni, M, Casano, L, Castoldi, M, Curciarello, F, De Leo, V, Didelez, J, Di Salvo, R, Fantini, A, Franco, D, Gervino, G, Ghio, F, Giardina, G, Girolami, B, Giusa, A, Lapik, A, Levi Sandri, P, Lleres, A, Mammoliti, F, Mandaglio, G, Manganaro, M, Moricciani, D, Mushkarenkov, A, Nedorezov, V, Randieri, C, Rebreyend, D, Rudnev, N, Russo, G, Schaerf, C, Sperduto, M, Sutera, M, Turinge, A, and Zonta, I

Subjects

MONITORING-SYSTEM, BARYONS, CHROMODYNAMICS, VECTOR-MESON PHOTOPRODUCTION, QUARK-MODEL, BGO CALORIMETER, POLARIZED PHOTONS, RESONANCES, COUPLINGS, THRESHOLD, Settore FIS/04 - Fisica Nucleare e Subnucleare

Published

2015

224. Resonance strengths in the 17,18O(p,gamma)14,15N reactions and background suppression underground

Author

Bruno, C. G., Scott, D. A., Formicola, A., Aliotta, M., Davinson, T., Anders, M., Best, A., Bemmerer, D., Broggini, C., Caciolli, A., Cavanna, F., Corvisiero, P., Depalo, R., Di Leva, A., Elekes, Z., Fulop, Z., Gervino, G., Griffin, C. J., Guglielmetti, A., Gustavino, C., Gyurky, G., Imbriani, G., Junker, M., Menegazzo, R., Napolitani, E., Prati, P., Somorjai, E., Straniero, O., Strieder, F., Szucs, T., and Trezzi, D.

Subjects

underground physics, silicon detectors, nuclear astrophysics, cross section measurement, nuclear astrophysics, underground physics, silicon detectors, cross section measurement

Published

2015

225. Measurement of theΣbeam asymmetry for theωphotoproduction off the proton and the neutron at the GRAAL experiment

Author

Vegna, V., D'Angelo, A., Bartalini, O., Bellini, V., Bocquet, J. P., Capogni, M., Casano, L. E., Castoldi, M., Curciarello, Francesca, De Leo, V., Didelez, J. P., Di Salvo, R., Fantini, A., Franco, D., Gervino, G., Ghio, F., Giardina, Giorgio 42, Girolami, B., Giusa, A., Lapik, A., Levi Sandri, P., Lleres, A., Mammoliti, F., Mandaglio, Giuseppe, Manganaro, M., Moricciani, D., Mushkarenkov, A., Nedorezov, V., Randieri, C., Rebreyend, D., Rudnev, N., Russo, G., Schaerf, C., Sperduto, M. L., Sutera, M. C., Turinge, A., and Zonta, I.

Published

2015

226. Three new low-energy resonances in the 22Ne(p,γ)23Na reaction

Author

Cavanna, Francesca, Depalo, R., Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Corvisiero, Pietro, Davinson, T., di Leva, A., Elekes, Z., Ferraro, Federico, Formicola, A., Fulop, Z., Gervino, G., Guglielmetti, A., Gustavino, C., Gyurky, G., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Prati, Paolo, Scott, D. A., Somorjai, E., Straniero, O., Strieder, F., Szucs, T., Takács, M. P., and Trezzi, D.

Subjects

LUNA, Asymptotic giant branch stars, Hot bottom burning, Underground nuclear astrophysics, Ne-Na cycle, Nova nucleosynthesis, nuclear astrophysics, underground accelerator, Nuclear Astrophysics, agb stars, Supernova nucleosynthesis, nuclear astrophysics, agb stars, Ne-Na cycle, underground accelerator, Hydrogen burning

Abstract

The ^{22}Ne(p,γ)^{23}Na reaction takes part in the neon-sodium cycle of hydrogen burning. This cycle affects the synthesis of the elements between ^{20}Ne and ^{27}Al in asymptotic giant branch stars and novae. The ^{22}Ne(p,γ)^{23}Na reaction rate is very uncertain because of a large number of unobserved resonances lying in the Gamow window. At proton energies below 400 keV, only upper limits exist in the literature for the resonance strengths. Previous reaction rate evaluations differ by large factors. In the present work, the first direct observations of the ^{22}Ne(p,γ)^{23}Na resonances at 156.2, 189.5, and 259.7 keV are reported. Their resonance strengths are derived with 2%-7% uncertainty. In addition, upper limits for three other resonances are greatly reduced. Data are taken using a windowless ^{22}Ne gas target and high-purity germanium detectors at the Laboratory for Underground Nuclear Astrophysics in the Gran Sasso laboratory of the National Institute for Nuclear Physics, Italy, taking advantage of the ultralow background observed deep underground. The new reaction rate is a factor of 20 higher than the recent evaluation at a temperature of 0.1 GK, relevant to nucleosynthesis in asymptotic giant branch stars.

Published

2015

227. Evidence for narrow resonant structures atW≈1.68GeVandW≈1.72GeVin real Compton scattering off the proton

Author

Kuznetsov, V., Mammoliti, F., Bellini, V., Gervino, G., Ghio, F., Giardina, Giorgio 42, Kim, W., Mandaglio, Giuseppe, Sperduto, M. L., and Sutera, C. M.

Published

2015

228. Resonance strengths in the 17,18O(p, α)14,15N reactions and background suppression underground

Author

Bruno, C. G., Scott, D. A., Formicola, A., Aliotta, M., Davinson, T., Anders, M., Best, A., Bemmerer, D., Broggini, C., Cavanna, A. C. F., Corvisiero, P., Depalo, R., Di Leva, A., Elekes, Z., Fülöp, Z., Gervino, G., Griffin, C. J., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., Junker, M., Menegazzo, R., Napolitani, E., Prati, P., Somorjai, E., Straniero, O., Strieder, F., Szücs, T., and Trezzi, D.

Subjects

Nuclear Astrophysics

Abstract

We report on measurements of resonance strengths and energies for the Ep=151 and 193 keV resonances in the18O(p, α )15N and17O(p, α )14N reactions, respectively, obtained during commissioning of a new setup for alpha-particle detection studies at the LUNA underground laboratory. Our values, ωγ(151)=164.2±0.9stat+12.1−11.7syst meV and ωγ(193)=1.68±0.03stat±0.12syst meV, are in excellent agreement with those reported in the literature. New values of resonance energies are Ep=151.2±0.3 keV and Ep=194.8±0.3 keV, respectively, this latter with the highest precision to date. Comparative background measurements in silicon detectors overground and underground were also carried out, yielding up to a factor of 15 in background suppression at LUNA at energies around 200keV. This clearly demonstrates the usefulness of underground measurements in charged-particles experiments, especially at low detection energies.

Published

2015

229. Evidence for narrow resonant structures at W approximate to 1.68 GeV and W approximate to 1.72 GeV in real Compton scattering off the proton

Author

Kuznetsov, V, Mammoliti, F, Bellini, Vincenzo, Gervino, G, Ghio, F, Giardina, G, Kim, W, Mandaglio, G, Sperduto, Ml, and Sutera, CONCETTA MARIA

Published

2015

230. Measurement of the Sigma beam asymmetry for the omega photoproduction off the proton and the neutron at the GRAAL experiment

Author

Vegna, V, D'Angelo, A, Bartalini, O, Bellini, Vincenzo, Bocquet, Jp, Capogni, M, Casano, Le, Castoldi, M, Curciarello, F, De Leo, V, Didelez, Jp, Di Salvo, R, Fantini, A, Franco, D, Gervino, G, Ghio, F, Giardina, G, Girolami, B, Giusa, A, Lapik, A, Sandri, Pl, Lleres, A, Mammoliti, F, Mandaglio, G, Manganaro, M, Moricciani, D, Mushkarenkov, A, Nedorezov, V, Randieri, C, Rebreyend, D, Rudnev, N, Russo, Giuseppe, Schaerf, C, Sperduto, Ml, Sutera, CONCETTA MARIA, Turinge, A, and Zonta, I.

Subjects

Nuclear Theory, Physics::Accelerator Physics, GRAAL, meson photoproduction, beam asimmetry, omega, High Energy Physics::Experiment, Nuclear Experiment

Abstract

We report on new measurements of the beam asymmetry foromega photoproduction on protons and neutrons in hydrogen and deuterium targets from the GRAAL Collaboration. The beam asymmetry values are extracted from the reaction threshold (E-gamma = 1.1 GeV in the free nucleon kinematics) up to 1.5 GeV of incoming photon energy. For the first time both the radiative and the three-pion decay channels are simultaneously investigated on the free proton. Results from the two decay channels are in agreement, leading to the world's most precise measurements of the beam asymmetry for omega photoproduction off free protons. First experimental results on the deuteron allow the extraction of the Sigma beam asymmetry on quasifree nucleons. The beam asymmetry angular distributions obtained for the free and the quasifree kinematics show the same behavior, similar to the findings in pseudoscalar meson photoproduction reactions. First results of the beam asymmetry on the quasifree neutrons are presented, showing different strengths and angular distributions from the results on the proton target.

Published

2015

231. Three New Low-Energy Resonances in the 22Ne (p ,γ )23Na Reaction

Author

Cavanna, F., Depalo, R., Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Corvisiero, P., Davinson, T., di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, Gy., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Prati, P., Scott, D. A., Somorjai, E., STRANIERO, Oscar, Strieder, F., Szücs, T., Takács, M. P., Trezzi, D., LUNA Collaboration, ITA, GBR, DEU, and HUN

Abstract

The 22Ne (p ,γ )23Na reaction takes part in the neon-sodium cycle of hydrogen burning. This cycle affects the synthesis of the elements between 20Ne and 27Al in asymptotic giant branch stars and novae. The 22Ne(p ,γ )23Na reaction rate is very uncertain because of a large number of unobserved resonances lying in the Gamow window. At proton energies below 400 keV, only upper limits exist in the literature for the resonance strengths. Previous reaction rate evaluations differ by large factors. In the present work, the first direct observations of the 22Ne (p ,γ )23Na resonances at 156.2, 189.5, and 259.7 keV are reported. Their resonance strengths are derived with 2%-7% uncertainty. In addition, upper limits for three other resonances are greatly reduced. Data are taken using a windowless 22Ne gas target and high-purity germanium detectors at the Laboratory for Underground Nuclear Astrophysics in the Gran Sasso laboratory of the National Institute for Nuclear Physics, Italy, taking advantage of the ultralow background observed deep underground. The new reaction rate is a factor of 20 higher than the recent evaluation at a temperature of 0.1 GK, relevant to nucleosynthesis in asymptotic giant branch stars.

Published

2015

232. The baryon density of the Universe from an improved rate of deuterium burning

Author

Mossa, V., Stöckel, K., Cavanna, F., Ferraro, F., Aliotta, M., Barile, F., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Chillery, T., Ciani, G. F., Corvisiero, P., Csedreki, L., Davinson, T., Depalo, R., Di Leva, A., Elekes, Z., Fiore, E. M., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., Junker, M., Kievsky, A., Kochanek, I., Lugaro, M., Marcucci, L. E., Mangano, G., Marigo, P., Masha, E., Menegazzo, R., Pantaleo, F. R., Paticchio, V., Perrino, R., Piatti, D., Pisanti, O., Prati, P., Schiavulli, L., Straniero, O., Szücs, T., Takács, M. P., Trezzi, D., Viviani, M., and Zavatarelli, S.

Abstract

Light elements were produced in the first few minutes of the Universe through a sequence of nuclear reactions known as Big Bang nucleosynthesis (BBN)1,2. Among the light elements produced during BBN1,2, deuterium is an excellent indicator of cosmological parameters because its abundance is highly sensitive to the primordial baryon density and also depends on the number of neutrino species permeating the early Universe. Although astronomical observations of primordial deuterium abundance have reached percent accuracy3, theoretical predictions4–6based on BBN are hampered by large uncertainties on the cross-section of the deuterium burning D(p,γ)3He reaction. Here we show that our improved cross-sections of this reaction lead to BBN estimates of the baryon density at the 1.6 percent level, in excellent agreement with a recent analysis of the cosmic microwave background7. Improved cross-section data were obtained by exploiting the negligible cosmic-ray background deep underground at the Laboratory for Underground Nuclear Astrophysics (LUNA) of the Laboratori Nazionali del Gran Sasso (Italy)8,9. We bombarded a high-purity deuterium gas target10with an intense proton beam from the LUNA 400-kilovolt accelerator11and detected the γ-rays from the nuclear reaction under study with a high-purity germanium detector. Our experimental results settle the most uncertain nuclear physics input to BBN calculations and substantially improve the reliability of using primordial abundances to probe the physics of the early Universe.

Published

2020

233. First measurement of the 14N(p,γ)15O cross section down to 70 keV

Author

Lemut, A., Bemmerer, D., Confortola, F., Bonetti, R., Broggini, C., Corvisiero, P., Costantini, H., Cruz, J., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, Gy., Imbriani, G., Jesus, A.P., Junker, M., Limata, B., Menegazzo, R., Prati, P., Roca, V., Rogalla, D., Rolfs, C., Romano, M., Rossi Alvarez, C., Schümann, F., Somorjai, E., Straniero, O., Strieder, F., Terrasi, F., and Trautvetter, H.P.

Subjects

Nuclear and High Energy Physics

Published

2006

234. BEAM ASYMMETRY IN MESON PHOTOPRODUCTION ON DEUTERON TARGETS AT GRAAL

Author

DI SALVO, R., Bartalini, O., Bellini, Vincenzo, Bocquet, J. P., Castoldi, M., D'Angelo, A., Didelez, J. P., Fantini, A., Gervino, G., Ghio, F., Girolami, B., Giusa, A., Guidal, M., Hourany, E., Kunne, R., Kuznetsov, V., Lapik, A., LEVI SANDRI, P., Lleres, A., Moricciani, D., Moushkarenko, A., Nedorezov, D. V., Rebreyend, D., Rudnev, N. V., Russo, Giuseppe, Schaerf, C., Sperduto, M. L., Sutera, CONCETTA MARIA, Turinge, A., and Zabrodin, A.

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Proton, Meson, media_common.quotation_subject, Astronomy and Astrophysics, Asymmetry, Atomic and Molecular Physics, and Optics, Nuclear physics, Deuterium, Neutron, Beam (structure), media_common

Abstract

Preliminary results on the beam asymmetry Σ for η and π0 photoproduction on the proton and the neutron in the deuteron in a quasi free kinematics regime have been obtained. Very preliminary results will be presented on the status of art of the GRAAL search for the two members of the exotic penta-quarks anti-decuplet, the P11 and the Θ+.

Published

2005

235. $^{22}$Ne and $^{23}$Na ejecta from intermediate-mass stars: The impact of the new LUNA rate for $^{22}$Ne(p,$\gamma$)$^{23}$Na

Author

Slemer, A., Marigo, P., Piatti, D., Aliotta, M., Bemmerer, D., Best, A., Boeltzig, A., Bressan, A., Broggini, C., Bruno, C. G., Caciolli, A., Cavanna, F., Ciani, G. F., Corvisiero, P., Davinson, T., Depalo, R., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., F\", Zs., l\", p, Gervino, G., Guglielmetti, A., Gustavino, C., Gy\", G., rky, Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Prati, P., Straniero, O., Sz\", T., cs, Tak\', M. P., Trezzi, D., Slemer, A., Marigo, P., Piatti, D., Aliotta, M., Bemmerer, D., Best, A., Boeltzig, A., Bressan, A., Broggini, C., Bruno, C. G., Caciolli, A., Cavanna, F., Ciani, G. F., Corvisiero, P., Davinson, T., Depalo, R., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., F\", Zs., l\", p, Gervino, G., Guglielmetti, A., Gustavino, C., Gy\", G., rky, Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Prati, P., Straniero, O., Sz\", T., cs, Tak\', M. P., and Trezzi, D.

Abstract

We investigate the impact of the new LUNA rate for the nuclear reaction $^{22}$Ne$(p,\gamma)^{23}$Na on the chemical ejecta of intermediate-mass stars, with particular focus on the thermally-pulsing asymptotic giant branch (TP-AGB) stars that experience hot-bottom burning. To this aim we use the PARSEC and COLIBRI codes to compute the complete evolution, from the pre-main sequence up to the termination of the TP-AGB phase, of a set of stellar models with initial masses in the range $3.0\,M_{\odot} - 6.0\,M_{\odot}$, and metallicities $Z_{\rm i}=0.0005$, $Z_{\rm i}=0.006$, and $Z_{\rm i} = 0.014$. We find that the new LUNA measures have much reduced the nuclear uncertainties of the $^{22}$Ne and $^{23}$Na AGB ejecta, which drop from factors of $\simeq 10$ to only a factor of few for the lowest metallicity models. Relying on the most recent estimations for the destruction rate of $^{23}$Na, the uncertainties that still affect the $^{22}$Ne and $^{23}$Na AGB ejecta are mainly dominated by evolutionary aspects (efficiency of mass-loss, third dredge-up, convection). Finally, we discuss how the LUNA results impact on the hypothesis that invokes massive AGB stars as the main agents of the observed O-Na anti-correlation in Galactic globular clusters. We derive quantitative indications on the efficiencies of key physical processes (mass loss, third dredge-up, sodium destruction) in order to simultaneously reproduce both the Na-rich, O-poor extreme of the anti-correlation, and the observational constraints on the CNO abundance. Results for the corresponding chemical ejecta are made publicly available., Comment: 21 pages, 14 figures, accepted for publication in MNRAS

Published

2016

236. The impact of the revised $^{17}$O$(p,\alpha)^{14}$N reaction rate on $^{17}$O stellar abundances and yields

Author

Straniero, O., Bruno, C. G., Aliotta, M., Best, A., Boeltzig, A., Bemmerer, D., Broggini, C., Caciolli, A., Cavanna, F., Ciani, G. F., Corvisiero, P., Cristallo, S., Davinson, T., Depalo, R., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Piersanti, L., Prati, P., Samorjai, E., Strieder, F., Szucs, T., Takács, M. P., Trezzi, D., Straniero, O., Bruno, C. G., Aliotta, M., Best, A., Boeltzig, A., Bemmerer, D., Broggini, C., Caciolli, A., Cavanna, F., Ciani, G. F., Corvisiero, P., Cristallo, S., Davinson, T., Depalo, R., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Piersanti, L., Prati, P., Samorjai, E., Strieder, F., Szucs, T., Takács, M. P., and Trezzi, D.

Abstract

Context. Material processed by the CNO cycle in stellar interiors is enriched in 17O. When mixing processes from the stellar surface reach these layers, as occurs when stars become red giants and undergo the first dredge up, the abundance of 17O increases. Such an occurrence explains the drop of the 16O/17O observed in RGB stars with mass larger than 1.5 M_\solar. As a consequence, the interstellar medium is continuously polluted by the wind of evolved stars enriched in 17O . Aims. Recently, the Laboratory for Underground Nuclear Astrophysics (LUNA) collaboration released an improved rate of the 17O(p,alpha)14N reaction. In this paper we discuss the impact that the revised rate has on the 16O/17O ratio at the stellar surface and on 17O stellar yields. Methods. We computed stellar models of initial mass between 1 and 20 M_\solar and compared the results obtained by adopting the revised rate of the 17O(p,alpha)14N to those obtained using previous rates. Results. The post-first dredge up 16O/17O ratios are about 20% larger than previously obtained. Negligible variations are found in the case of the second and the third dredge up. In spite of the larger 17O(p,alpha)14N rate, we confirm previous claims that an extra-mixing process on the red giant branch, commonly invoked to explain the low carbon isotopic ratio observed in bright low-mass giant stars, marginally affects the 16O/17O ratio. Possible effects on AGB extra-mixing episodes are also discussed. As a whole, a substantial reduction of 17O stellar yields is found. In particular, the net yield of stars with mass ranging between 2 and 20 M_\solar is 15 to 40% smaller than previously estimated. Conclusions. The revision of the 17O(p,alpha)14N rate has a major impact on the interpretation of the 16O/17O observed in evolved giants, in stardust grains and on the 17O stellar yields., Comment: Accepted by A&A

Published

2016

237. Direct measurement of low-energy $^{22}$Ne(p,$\gamma$)$^{23}$Na resonances

Author

Depalo, R., Cavanna, F., Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Ciani, G. F., Corvisiero, P., Davinson, T., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, Gy., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Prati, P., Straniero, O., Szücs, T., Takács, M. P., Trezzi, D., Depalo, R., Cavanna, F., Aliotta, M., Anders, M., Bemmerer, D., Best, A., Boeltzig, A., Broggini, C., Bruno, C. G., Caciolli, A., Ciani, G. F., Corvisiero, P., Davinson, T., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, Gy., Imbriani, G., Junker, M., Menegazzo, R., Mossa, V., Pantaleo, F. R., Piatti, D., Prati, P., Straniero, O., Szücs, T., Takács, M. P., and Trezzi, D.

Abstract

The $^{22}$Ne(p,$\gamma$)$^{23}$Na reaction is the most uncertain process in the neon-sodium cycle of hydrogen burning. At temperatures relevant for nucleosynthesis in asymptotic giant branch stars and classical novae, its uncertainty is mainly due to a large number of predicted but hitherto unobserved resonances at low energy. Purpose: A new direct study of low energy $^{22}$Ne(p,$\gamma$)$^{23}$Na resonances has been performed at the Laboratory for Underground Nuclear Astrophysics (LUNA), in the Gran Sasso National Laboratory, Italy. Method: The proton capture on $^{22}$Ne was investigated in direct kinematics, delivering an intense proton beam to a $^{22}$Ne gas target. $\gamma$ rays were detected with two high-purity germanium detectors enclosed in a copper and lead shielding suppressing environmental radioactivity. Results: Three resonances at 156.2 keV ($\omega\gamma$ = (1.48\,$\pm$\,0.10)\,$\cdot$\,10$^{-7}$ eV), 189.5 keV ($\omega\gamma$ = (1.87\,$\pm$\,0.06)\,$\cdot$\,10$^{-6}$ eV) and 259.7 keV ($\omega\gamma$ = (6.89\,$\pm$\,0.16)\,$\cdot$\,10$^{-6}$ eV) proton beam energy, respectively, have been observed for the first time. For the levels at 8943.5, 8975.3, and 9042.4 keV excitation energy corresponding to the new resonances, the $\gamma$-decay branching ratios have been precisely measured. Three additional, tentative resonances at 71, 105 and 215 keV proton beam energy, respectively, were not observed here. For the strengths of these resonances, experimental upper limits have been derived that are significantly more stringent than the upper limits reported in the literature. Conclusions: Based on the present experimental data and also previous literature data, an updated thermonuclear reaction rate is provided in tabular and parametric form. The new reaction rate is significantly higher than previous evaluations at temperatures of 0.08-0.3 GK., Comment: Submitted to Phys. Rev. C

Published

2016

238. New experimental study of low-energy ( p,γ ) resonances in magnesium isotopes

Author

Limata B., Strieder F., Formicola A., IMBRIANI, GIANLUCA, Junker M., Becker H. W., Bemmerer D., BEST, ANDREAS, Bonetti R., Broggini C., Caciolli A., Corvisiero P., Costantini H., DI LEVA, ANTONINO, Elekes Z., Fülöp Z.s., Gervino G., Guglielmetti A., Gustavino C., Gyürky G.y., Lemut A., Marta M., Mazzocchi C., Menegazzo R., Prati P., ROCA, VINCENZO, Rolfs C., Rossi Alvarez C., Salvo C., Somorjai E., Straniero O., Terrasi F., Trautvetter H. P., Limata, B., Strieder, F., Formicola, A., Imbriani, Gianluca, Junker, M., Becker, H. W., Bemmerer, D., Best, Andrea, Bonetti, R., Broggini, C., Caciolli, A., Corvisiero, P., Costantini, H., DI LEVA, Antonino, Elekes, Z., Fülöp, Z. s., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G. y., Lemut, A., Marta, M., Mazzocchi, C., Menegazzo, R., Prati, P., Roca, Vincenzo, Rolfs, C., Rossi Alvarez, C., Salvo, C., Somorjai, E., Straniero, O., Terrasi, F., and Trautvetter, H. P.

Subjects

supernovae, Radiative capture, Nucleosynthesis in novae, and other explosive environments, Experimental nuclear physic, Inelastic proton scattering, Stellar hydrogen burning

Abstract

Proton captures on Mg isotopes play an important role in the Mg-Al cycle active in stellar H-shell burning. In particular, the strengths of low-energy resonances with E

Published

2010

239. Underground study of the O-17(p,gamma)F-18 reaction relevant for explosive hydrogen burning (vol 89, 015803, 2014)

Author

Di Leva, A., Scott, D. A., Caciolli, A., Formicola, A., Strieder, F., Aliotta, M., Anders, M., Bemmerer, D., Broggini, C., Corvisiero, P., Elekes, Z., Fueloep, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gyuerky, Gy., Imbriani, G., Jose, J., Junker, M., Laubenstein, M., Menegazzo, R., Napolitani, E., Prati, P., Rigato, V., Roca, V., Somorjai, E., Salvo, C., Straniero, O., Szuecs, T., Terrasi, F., and Trezzi, D.

Published

2014

240. A new study of the 22Ne(p,γ)23Na reaction deep underground: Feasibility, setup, and first observation of the 186 keV resonance

Author

Cavanna, F., Depalo, R., Menzel, M.-L., Aliotta, M., Anders, M., Bemmerer, D., Broggini, C., Bruno, C. G., Caciolli, A., Corvisiero, P., Davinson, T., Di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., Fülöp, Z., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., Junker, M., Menegazzo, R., Prati, P., Rossi Alvarez, C., Scott, D. A., Somorjai, E., Straniero, O., Strieder, F., Szücs, T., and Trezzi, D.

Subjects

LUNA, novae, asymptotic giant branch stars, underground nuclear astrophysics

Abstract

The 22Ne(p,γ)23Na reaction takes part in the neon-sodium cycle of hydrogen burning. This cycle is active in asymptotic giant branch stars as well as in novae and contributes to the nucleosythesis of neon and sodium isotopes. In order to reduce the uncertainties in the predicted nucleosynthesis yields, new experimental efforts to measure the 22Ne(p,γ)23Na cross section directly at the astrophysically relevant energies are needed. In the present work, a feasibility study for a 22Ne(p,γ)23Na experiment at the Laboratory for Underground Nuclear Astrophysics (LUNA) 400\,kV accelerator deep underground in the Gran Sasso laboratory, Italy, is reported. The ion beam induced γ-ray background has been studied. The feasibility study led to the first observation of the Ep = 186\,keV resonance in a direct experiment. An experimental lower limit of 0.12\,×\,10−6\,eV has been obtained for the resonance strength. Informed by the feasibility study, a dedicated experimental setup for the 22Ne(p,γ)23Na experiment has been developed. The new setup has been characterized by a study of the temperature and pressure profiles. The beam heating effect that reduces the effective neon gas density due to the heating by the incident proton beam has been studied using the resonance scan technique, and the size of this effect has been determined for a neon gas target.

Published

2014

241. A new study of the $^{22}$Ne(p,$��$)$^{23}$Na reaction deep underground: Feasibility, setup, and first observation of the 186 keV resonance

Author

Cavanna, F., Depalo, R., Menzel, M. -L., Aliotta, M., Anders, M., Bemmerer, D., Broggini, C., Bruno, C. G., Caciolli, A., Corvisiero, P., Davinson, T., di Leva, A., Elekes, Z., Ferraro, F., Formicola, A., F��l��p, Zs., Gervino, G., Guglielmetti, A., Gustavino, C., Gy��rky, Gy., Imbriani, G., Junker, M., Menegazzo, R., Prati, P., Alvarez, C. Rossi, Scott, D. A., Somorjai, E., Straniero, O., Strieder, F., Sz��cs, T., and Trezzi, D.

Subjects

FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Nuclear Experiment (nucl-ex), Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

The $^{22}$Ne(p,$��$)$^{23}$Na reaction takes part in the neon-sodium cycle of hydrogen burning. This cycle is active in asymptotic giant branch stars as well as in novae and contributes to the nucleosythesis of neon and sodium isotopes. In order to reduce the uncertainties in the predicted nucleosynthesis yields, new experimental efforts to measure the $^{22}$Ne(p,$��$)$^{23}$Na cross section directly at the astrophysically relevant energies are needed. In the present work, a feasibility study for a $^{22}$Ne(p,$��$)$^{23}$Na experiment at the Laboratory for Underground Nuclear Astrophysics (LUNA) 400\,kV accelerator deep underground in the Gran Sasso laboratory, Italy, is reported. The ion beam induced $��$-ray background has been studied. The feasibility study led to the first observation of the $E_{\rm p}$ = 186\,keV resonance in a direct experiment. An experimental lower limit of 0.12\,$\times$\,10$^{-6}$\,eV has been obtained for the resonance strength. Informed by the feasibility study, a dedicated experimental setup for the $^{22}$Ne(p,$��$)$^{23}$Na experiment has been developed. The new setup has been characterized by a study of the temperature and pressure profiles. The beam heating effect that reduces the effective neon gas density due to the heating by the incident proton beam has been studied using the resonance scan technique, and the size of this effect has been determined for a neon gas target., Minor errors corrected; final version

Published

2014

242. Beam asymmetry sigma in etaI photoproduction off the proton at the GRAAL experiment

Author

Mandaglio, G., Bellini, Vincenzo, Bocquet, J. P., Capogni, M., Curciarello, F., D’Angelo, A., Deleo, V., Didelez, J. P., Di Salvo, R., Fantini, A., Franco, D., Gervino, G., Ghio, F., Giardina, G., Girolami, B., Lapik, A. M., Levi Sandri, P., Lleres, A., Mammoliti, Francesco, Manganaro, M., Moricciani, D., Mushkarenkov, A. N., Nedorezov, V. G., Rebreyend, D., Rudnev, N. V., Schaerf, C., Sperduto, M. L., Sutera, M. C., Turinge, A., Vegna, V., and Zonta, I.

Published

2014

243. First Measurement of the $��$ Beam Asymmetry in $��^{\prime}$ Photoproduction off the Proton near Threshold

Author

Sandri, P. Levi, Mandaglio, G., De Leo, V., Bartalini, O., Bellini, V., Bocquet, J. P., Capogni, M., Curciarello, F., D'Angelo, A., Didelez, J. P., Di Salvo, R., Fantini, A., Franco, D., Gaulard, C., Gervino, G., Ghio, F., Giardina, G., Girolami, B., Giusa, A., Lapik, A., Lleres, A., Mammoliti, F., Manganaro, M., Moricciani, D., Mushkarenkov, A., Nedorezov, V., Randieri, C., Rebreyend, D., Rudnev, N., Russo, G., Schaerf, C., Sperduto, M. L., Sutera, M. C., Turinge, A., Vegna, V., and Zonta, I.

Subjects

FOS: Physical sciences, High Energy Physics::Experiment, Nuclear Experiment (nucl-ex), Nuclear Experiment

Abstract

The $��$ beam asymmetry in $��^{\prime}$ photoproduction off the proton was measured at the GrAAL polarised photon beam with incoming photon energies of 1.461 and 1.480 GeV. For both energies the asymmetry as a function of the meson production angle shows a clear structure, more pronounced at the lowest one, with a change of sign around 90$^o$. The observed behaviour is compatible with P-wave D-wave (or S-wave F-wave) interference, the closer to threshold the stronger. The results are compared to the existing state-of-the-art calculations that fail to account for the data., 6 pages, 4 figures, accepted for publication on Eur. Phys. J A

Published

2014

244. Underground study of the O-17(p,gamma)F-18 reaction relevant for explosive hydrogen burning

Author

Leva, A. D., Scott, D. A., Caciolli, A., Formicola, A., Strieder, F., Aliotta, M., Anders, M., Bemmerer, D., Broggini, C., Corvisiero, P., Elekes, Z., Fueloep, Z., Gervino, G., Guglielmetti, A., Gustavino, C., Gyuerky, G., Imbriani, G., Jose, J., Junker, M., Laubenstein, M., Menegazzo, R., Napolitani, Enrico, Prati, P., Rigato, V., Roca, V., Somorjai, E., Salvo, C., Straniero, O., Szuecs, T., Terrasi, F., and Trezzi, D.

Published

2014

245. Underground study of the 17O( p,γ )18F reaction relevant for explosive hydrogen burning

Author

Di Leva, A., Scott, D. A., Caciolli, A., Formicola, A., Strieder, F., Aliotta, M., Anders, M., Bemmerer, D., Broggini, C., Corvisiero, P., Elekes, Z., Fülöp, Z., Gervino, G., Guglielmetti, A., Gustavino, C., Gyürky, G., Imbriani, G., José, J., Junker, M., Laubenstein, M., Menegazzo, R., Napolitani, E., Prati, P., Rigato, V., Roca, V., Somorjai, E., Salvo, C., Straniero, O., Szücs, T., Terrasi, F., and Trezzi, D.

Subjects

astrofisica nucleare, Nuclear astrophysics hydrogen burning nova nucleosynthesis underground LUNA, fisica underground, evoluzione stellare

Abstract

Background: The O17(p,γ)F18 reaction affects the production of key isotopes (e.g., F18 and O18) in the explosive hydrogen burning that powers classical novae. Under these explosive conditions, the reaction rate is dominated by contributions from a narrow resonance at Ec.m.=183keV and by the combined contributions of direct capture and low-energy tails of broad resonances. At present, the astrophysical reaction rate is not well constrained because of the lack of data in the energy region appropriate to classical novae. Purpose: This study aims at the measurement of the O17(p,γ)F18 reaction cross section in order to determine its reaction rate in the temperature region appropriate to explosive hydrogen burning in novae. Method: The O17(p,γ)F18 reaction cross section was measured using both the prompt detection of the emitted γ rays and an activation technique. Measurements were carried out at the Laboratory for Underground Nuclear Astrophysics (Gran Sasso, Italy) where the strongly reduced cosmic-ray-induced background allows for improved sensitivity compared to previous studies. Results: The O17(p,γ)F18 reaction cross section was measured in the range Ec.m.=160 to 370keV. The strength of the Ec.m.=183keV resonance, ωγ=1.67±0.12μeV, was determined with unprecedented precision. The total S factor was obtained through a combined fit of prompt γ-ray and activation results. An overall global fit including other existing data sets was also carried out and a recommended astrophysical reaction rate is presented. Conclusions: The reaction rate uncertainty attained in this work is now below the required precision for nova models. We verified, following a full set of hydrodynamic nova models, that the abundances of oxygen and fluorine isotopes obtained with the present reaction rate are determined with 10% precision and put firmer constraints on observational signatures of novae events.

Published

2014

246. Beam asymmetry Sigma in eta-prime photoproduction off the proton at the GRAAL experiment

Author

Mandaglio, G., Bellini, V., Bocquet, J. P., Capogni, M., Curciarello, F., D'Angelo, A., De Leo, V., Didelez, J. P., Di Salvo, R., Fantini, A., Franco, D., Gervino, G., Ghio, F., Giardina, G., Girolami, B., Lapik, A. M., Levi Sandri, P., Lleres, A., Mammoliti, F., Manganaro, M., Moricciani, D., Mushkarenkov, A. N., Nedorezov, V. G., Rebreyend, D., Rudnev, N. V., Schaerf, C., Sperduto, M. L., Sutera, C. M., Turinge, A., Vegna, V., and Zonta, I.

Published

2014

247. Analysis of the etaI photoproduction off the proton and preliminary beam asymmetry results at the GRAAL experiment

Author

Mandaglio, G., Bellini, Vincenzo, Bocquet, J. P., Capogni, M., Curciarello, F., D’Angelo, A., Deleo, V., Didelez, J. P., Di Salvo, R., Fantini, A., Franco, D., Gervino, G., Ghio, F., Giardina, G., Girolami, B., Lapik, A. M., Levi Sandri, P., Lleres, A., Mammoliti, Francesco, Manganaro, M., Moricciani, D., Mushkarenkov, A. N., Nedorezov, V. G., Rebreyend, D., Rudnev, N. V., Schaerf, C., Sperduto, M. L., Sutera, M. C., Turinge, A., Vegna, V., and Zonta, I.

Published

2014

248. The He3(α,γ)Be7 S-factor at solar energies: The prompt γ experiment at LUNA

Author

Costantini H., Bemmerer D., Confortola F., Formicola A., Gyürky G.y., Bezzon P., Bonetti R., Broggini C., Corvisiero P., Elekes Z., Fülöp Z.s., Gervino G., Guglielmetti A., Gustavino C., Junker M., Laubenstein M., Lemut A., Limata B., Lozza V., Marta M., Menegazzo R., Prati P., Rolfs C., Alvarez C. Rossi, Somorjai E., Straniero O., Strieder F., Terrasi F., Trautvetter H. P., IMBRIANI, GIANLUCA, ROCA, VINCENZO, Costantini, H., Bemmerer, D., Confortola, F., Formicola, A., Gyürky, G. y., Bezzon, P., Bonetti, R., Broggini, C., Corvisiero, P., Elekes, Z., Fülöp, Z. s., Gervino, G., Guglielmetti, A., Gustavino, C., Imbriani, Gianluca, Junker, M., Laubenstein, M., Lemut, A., Limata, B., Lozza, V., Marta, M., Menegazzo, R., Prati, P., Roca, Vincenzo, Rolfs, C., Alvarez C., Rossi, Somorjai, E., Straniero, O., Strieder, F., Terrasi, F., and Trautvetter, H. P.

Subjects

Experimental Nuclear Physic, Nuclear Astrophysic, underground laboratory

Abstract

The He-3(alpha, gamma)Be-7 process is a key reaction in both Big-Bang nucleosynthesis and p-p chain of Hydrogen Burning in Stars. A new measurement of the He-3(alpha, gamma)Be-7 cross section has been performed at the INFN Gran Sasso underground laboratory by both the activation and the prompt gamma detection methods. The present work reports full details of the prompt gamma detection experiment, focusing on the determination of the systematic uncertainty. The final data, including activation measurements at LUNA, are compared with the results of the last generation experiments and two different theoretical models are used to obtain the S-factor at solar energies.

Published

2008

249. Underground measurement of 14N(p, γ)15O astrophysical factor at low energy

Author

CONFORTOLA F, BEMMERER D, BONETTI R, BROGGINI C, CASANOVA M. L, CORVISIERO P, COSTANTINI H, CRUZ J, FORMICOLA A, FULOP Z, GERVINO G, GUGLIELMETTI A, GUSTAVINO C, GYU, RKY G, IMBRIANI G, JESUS A. P, JUNKER M, LEMUT A, MARTA M, MENEGAZZO R, PRATI P, ROCA V, ROLFS C, ROSSI ALVAREZ C, SCHU, MANN F, SOMORJAI E, STRANIERO O, STRIEDER F, TRAUTVETTER H. P., TERRASI, Filippo, Confortola, F, Bemmerer, D, Bonetti, R, Broggini, C, Casanova, M. L., Corvisiero, P, Costantini, H, Cruz, J, Formicola, A, Fulop, Z, Gervino, G, Guglielmetti, A, Gustavino, C, Gyu, Rky, G, Imbriani, G, Jesus, A. P., Junker, M, Lemut, A, Marta, M, Menegazzo, R, Prati, P, Roca, V, Rolfs, C, ROSSI ALVAREZ, C, Schu, Mann, F, Somorjai, E, Straniero, O, Strieder, F, Terrasi, Filippo, and Trautvetter, H. P.

Published

2006

250. First measurement of the 14N(p,γ)15O cross section down to 70keV

Author

LEMUT A, BEMMERER D, CONFORTOLA F, BONETTI R, BROGGINI C, CORVISIERO P, COSTANTINI H, CRUZ J, FORMICOLA A, FULOP Z, GERVINO G, GUGLIELMETTI A, GUSTAVINO C, GYORKY G, IMBRIANI G, JESUS A. P, JUNKER M, LIMATA B, MENEGAZZO R, PRATI P, ROCA V, ROLFS C, ROMANO M, ROSSI ALVAREZ C, SCHUMANN F, SOMORJAI E, STRANIERO O, STRIEDER F, TRAUTVETTER H. P., TERRASI, Filippo, Lemut, A, Bemmerer, D, Confortola, F, Bonetti, R, Broggini, C, Corvisiero, P, Costantini, H, Cruz, J, Formicola, A, Fulop, Z, Gervino, G, Guglielmetti, A, Gustavino, C, Gyorky, G, Imbriani, G, Jesus, A. P., Junker, M, Limata, B, Menegazzo, R, Prati, P, Roca, V, Rolfs, C, Romano, M, ROSSI ALVAREZ, C, Schumann, F, Somorjai, E, Straniero, O, Strieder, F, Terrasi, Filippo, and Trautvetter, H. P.

Published

2006