Your search keyword '"Schonert, S."' showing total 4 results

1. Directional measurement in Borexino: Calibration of Cherenkov photons in a liquid scintillator detector using gamma sources

Author

Kumaran, S., Agostini, M., Altenmuller, K., Appel, S., Atroshchenko, V., Bagdasarian, Z., Basilico, D., Bellini, G., Benziger, J., Biondi, R., Bravo, D., Caccianiga, B., Calaprice, F., Caminata, A., Cavalcante, P., Chepurnov, A., D'Angelo, D., Davini, S., Derbin, A., Di Giacinto, A., Di Marcello, V., Ding, X. F., Di Ludovico, A., Di Noto, L., Drachnev, I., Formozov, A., Franco, D., Galbiati, C., Ghiano, C., Giammarchi, M., Goretti, A., Gottel, A. S., Gromov, M., Guffanti, D., Ianni, A., Jany, A., Jeschke, D., Kobychev, V., Korga, G., Laubenstein, M., Litvinovich, E., Lombardi, P., Lomskaya, I., Ludhova, L., Lukyanchenko, G., Lukyanchenko, L., Machulin, I., Martyn, J., Meroni, E., Meyer, M., Miramonti, L., Misiaszek, M., Muratova, V., Neumair, B., Nieslony, M., Nugmanov, R., Oberauer, L., Orekhov, V., Ortica, F., Pallavicini, M., Papp, L., Pellicci, L., Penek, O., Pietrofaccia, L., Pilipenko, N., Pocar, A., Raikov, G., Ranalli, M. T., Ranucci, G., Razeto, A., Re, A., Redchuk, M., Romani, A., Rossi, N., Schonert, S., Semenov, D., Settanta, G., Skorokhvatov, M., Singhal, A., Smirnov, O., Sotnikov, A., Suvorov, Y., Tartaglia, R., Testera, G., Thurn, J., Unzhakov, E., Vishneva, A., Vogelaar, R. B., von Feilitzsch, F., Wojcik, M., Wonsak, B., Wurm, M., Zavatarelli, S., Zuber, K., and Zuzel, G.

Subjects

History, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, High Energy Physics::Experiment, ddc:530, Computer Science Applications, Education

Abstract

Borexino is a 280-ton liquid scintillator detector located at the Laboratori Nazionali del Gran Sasso (LNGS), Italy. The main goal of Borexino is to measure solar neutrinos via elastic scattering off electrons in the liquid scintillator. The electrons are then detected by the photo-multiplier tubes via isotropically emitted scintillation photons. However, in the first few nanoseconds after a neutrino interaction, Cherenkov photons (0.16 MeV. Borexino has successfully obtained the first directional measurement of sub-MeV solar neutrinos, and the 7Be solar neutrino interaction rate, through the exploitation of this Cherenkov light signal. This is performed through the so-called Correlated and Integrated Directionality (CID) method, by correlating the first few detected photons to the well-known position of the Sun and integrating the angle for a large number of events. This measurement requires a calibration of the relative time differences between Cherenkov and scintillation photons. In Borexino, we obtain this through gamma calibration sources namely, 40K and 54Mn. A group velocity correction estimated through the gamma sources is then used for the solar neutrino analysis. This article will discuss the analysis strategy and methods used for this calibration, and provide motivation for a dedicated Cherenkov calibration in next-generation liquid scintillator detectors.

Published

2021

2. Solar Neutrino Results and Future Opportunities with Borexino

Author

Ghiano, C., Agostini, M., Altenmller, K., Appel, S., Atroshchenko, V., Bagdasarian, Z., Basilico, D., Bellini, G., Benziger, J., Bick, D., Bonfini, G., Bravo, D., Caccianiga, B., Calaprice, F., Caminata, A., Caprioli, S., Carlini, M., Cavalcante, P., Chepurnov, A., Choi, K., Collica, L., Dangelo, D., Davini, S., Derbin, A., Ding, X. F., Di Ludovico, A., Di Noto, L., Drachnev, I., Fomenko, K., Formozov, A., Franco, D., Froborg, F., Gabriele, F., Galbiati, C., Giammarchi, M., Goretti, A., Gromov, M., Guffanti, D., Hagner, C., Houdy, T., Hungerford, E., Ianni, A., Jany, A., Jeschke, D., Kobychev, V., Korablev, D., Korga, G., Kryn, D., Laubenstein, M., Litvinovich, E., Lombardi, F., Lombardi, P., Ludhova, L., Lukyanchenko, G., Lukyanchenko, L., Machulin, I., Manuzio, G., Marcocci, S., Martyn, J., Meroni, E., Meyer, M., Miramonti, L., Misiaszek, M., Muratova, V., Neumair, B., Oberauer, L., Opitz, B., Orekhov, V., Ortica, F., Pallavicini, M., Papp, L., Penek, O., Pilipenko, N., Pocar, A., Porcelli, A., Ranucci, G., Razeto, A., Re, A., Redchuk, M., Romani, A., Roncin, R., Rossi, N., Schonert, S., Semenov, D., Skorokhvatov, M., Smirnov, O., Sotnikov, A., Stokes, L. F. F., Suvorov, Y., Tartaglia, R., Thurn, J., Toropova, M., Unzhakov, E., Vishneva, A., Vogelaar, R. B., Von Feilitzsch, F., Wang, H., Weinz, S., Wojcik, M., Wurm, M., Yokley, Z., Zaimidoroga, O., Zavatarelli, S., Zuber, K., and Zuzel, G.

Subjects

Physics, History, Physics::Instrumentation and Detectors, Solar neutrino, Astronomy, High Energy Physics::Experiment, ddc:530, Borexino, Computer Science Applications, Education

Abstract

The Borexino experiment, located in the Laboratori Nazionali del Gran Sasso inItaly and widely known for its rich Solar Neutrino physics program, has recently celebrated the10 years of data taking. Among the achievements of the Borexino experiment solar program are:a precision measurement of 7Be neutrino flux with uncertainty of 3%, limit on its day/nightasymmetry, first spectral measurement of pp-neutrinos, first evidence of monoenergetic pepneutrinos at 5 sigma, 8B neutrinos detection with the lowest visible energy threshold of 3 MeV,observation of season modulation of the 7Be solar neutrino rate at 3.8 sigma and the best currentlimit on CNO neutrino flux.Borexino is now in its high-purity Phase II data taking, thanks to intense purificationcampaigns of scintillator in 2010-11 that were very successful in further reducing the already lowbackgrounds. The advanced tecniques of data analysis were improved, allowing to maximize thesignal/noise ratio. The detector was thermally insulated in order to improve the fluid stability.As an outcome, quality of the data has significantly increased leading to new levels of sensitivityto all solar neutrino fluxes. This allows a more sensitive probe for CNO neutrinos relevant tothe solar metallicity problem.

Published

2019

3. Borexino: new results from the high-purity phase-II data

Author

Zavatarelli, S, Agostini, M, Altenmüller, K, Appel, S, Atroshchenko, V, Bagdasarian, Z, Basilico, D, Bellini, G, Benziger, J, Bick, D, Bonfini, G, Bravo, D, Caccianiga, B, Calaprice, F, Caminata, A, Caprioli, S, Carlini, M, Cavalcante, P, Chepurnov, A, Choi, K, Collica, L., Dangelo, D, Davini, S, Derbin, A, F Ding, X, A Di Ludovico, L Di Noto, Drachnev, I, Fomenko, K, Formozov, A, Franco, D, Froborg, F, Gabriele, F, Galbiati, C, Ghiano, C, Giammarchi, M, Goretti, A, Gromov, M, Guffanti, D, Hagner, C, Houdy, T, Hungerford, E, Aldo, Ianni, Andrea, Ianni, Jany, A, Jeschke, D, Kobychev, V, Korablev, D, Korga, G, Kryn, D, Laubenstein, M, Litvinovich, E, Lombardi, F, Lombardi, P, Ludhova, L, Lukyanchenko, G, Lukyanchenko, L, Machulin, I, Manuzio, G, Marcocci, S, Martyn, J, Meroni, E, Meyer, M, Miramonti, L, Misiaszek, M, Muratova, V, Neumair, B, Oberauer, L, Opitz, B, Orekhov, V, Ortica, F, Pallavicini, M, Papp, L, Penek, O, Pilipenko, N, Pocar, A, Porcelli, A, Ranucci, G, Razeto, A, A, Re, Redchuk, M, Romani, A, Roncin, R, Rossi, N, Schonert, S, Semenov, D, Skorokhvatov, M, Smirnov, O, Sotnikov, A, L F, F Stokes, Suvorov, Y, Tartaglia, R, Thurn, J, Toropova, M, Unzhakov, E, Vishneva, A, B Vogelaar, R, Feilitzsch, F von., Wang, H, Weinz, S, Wojcik, M, Wurm, M, Yokley, Z, Zaimidoroga, O, Zuber, K, and Zuzel, G

Subjects

Physics, Physics and Astronomy (all), History, Phase (matter), Analytical chemistry, Borexino, Computer Science Applications, Education

Published

2018

4. Test of the electric charge conservation law with Borexino detector

Author

Vishneva, A, primary, Agostini, M, additional, Appel, S, additional, Bellini, G, additional, Benziger, J, additional, Bick, D, additional, Bonfini, G, additional, Bravo, D, additional, Caccianiga, B, additional, Calaprice, F, additional, Caminata, A, additional, Cavalcante, P, additional, Chepurnov, A, additional, Angelo, D D’, additional, Davini, S, additional, Derbin, A, additional, Noto, L Di, additional, Drachnev, I, additional, Etenko, A, additional, Fomenko, K, additional, Franco, D, additional, Gabriele, F, additional, Galbiati, C, additional, Ghiano, C, additional, Giammarchi, M, additional, Goeger-Neff, M, additional, Goretti, A, additional, Gromov, M, additional, Hagner, C, additional, Hungerford, E, additional, Ianni, Aldo, additional, Ianni, Andrea, additional, Jedrzejczak, K, additional, Kaiser, M, additional, Kobychev, V, additional, Korablev, D, additional, Korga, G, additional, Kryn, D, additional, Laubenstein, M, additional, Lehnert, B, additional, Litvinovich, E, additional, Lombardi, F, additional, Lombardi, P, additional, Ludhova, L, additional, Lukyanchenko, G, additional, Machulin, I, additional, Manecki, S, additional, Maneschg, W, additional, Marcocci, S, additional, Meroni, E, additional, Meyer, M, additional, Miramonti, L, additional, Misiaszek, M, additional, Montuschi, M, additional, Mosteiro, P, additional, Muratova, V, additional, Neumair, B, additional, Oberauer, L, additional, Obolensky, M, additional, Ortica, F, additional, Pallavicini, M, additional, Papp, L, additional, Perasso, L, additional, Pocar, A, additional, Ranucci, G, additional, Razeto, A, additional, Re, A, additional, Romani, A, additional, Roncin, R, additional, Rossi, N, additional, Schonert, S, additional, Semenov, D, additional, Simgen, H, additional, Skorokhvatov, M, additional, Smirnov, O, additional, Sotnikov, A, additional, Sukhotin, S, additional, Suvorov, Y, additional, Tartaglia, R, additional, Testera, G, additional, Thurn, J, additional, Toropova, M, additional, Unzhakov, E, additional, Vogelaar, R B, additional, von Feilitzsch, F, additional, Wang, H, additional, Weinz, S, additional, Winter, J, additional, Wojcik, M, additional, Wurm, M, additional, Yokley, Z, additional, Zaimidoroga, O., additional, Zavatarelli, S, additional, Zuber, K, additional, and Zuzel, G, additional

Published

2016