Zobrazeno 1 - 10
of 88
pro vyhledávání: '"Veretenkin, E."'
Autor:
Danshin, S. N., Gavrin, V. N., Gorbachev, V. V., Ibragimova, T. V., Komarov, B. A., Kozlova, J. P., Martynov, A. A., Veretenkin, E. P., Akimov, L. V., Kupriyanov, A. V., Malkov, A. P., Petelin, A. L., Pimenov, V. V., Romanov, E. G., Sazontov, S. A., Tabakin, E. M., Tarasov, V. A., Torgashov, I. V., Uzikov, V. A., Zvir, A. I., Kalaschnikova, A. A.
The production of the artificial 51Cr neutrino source with activity > 3 MCi for the experiment BEST is presented. This procedure consisted of making a 50Cr target and irradiating it with thermal neutrons in a nuclear reactor SM-3. The production of a
Externí odkaz:
http://arxiv.org/abs/2207.10928
Autor:
Barinov, V. V., Cleveland, B. T., Danshin, S. N., Ejiri, H., Elliott, S. R., Frekers, D., Gavrin, V. N., Gorbachev, V. V., Gorbunov, D. S., Haxton, W. C., Ibragimova, T. V., Kim, I., Kozlova, Yu. P., Kravchuk, L. V., Kuzminov, V. V., Lubsandorzhiev, B. K., Malyshkin, Yu. M., Massarczyk, R., Matveev, V. A., Mirmov, I. N., Nico, J. S., Petelin, A. L., Robertson, R. G. H., Sinclair, D., Shikhin, A. A., Tarasov, V. A., Trubnikov, G. V., Veretenkin, E. P., Wilkerson, J. F., Zvir, A. I.
The Baksan Experiment on Sterile Transitions (BEST) probes the gallium anomaly and its possible connections to oscillations between active and sterile neutrinos. Based on the Gallium-Germanium Neutrino Telescope (GGNT) technology of the SAGE experime
Externí odkaz:
http://arxiv.org/abs/2201.07364
Autor:
Barinov, V. V., Cleveland, B. T., Danshin, S. N., Ejiri, H., Elliott, S. R., Frekers, D., Gavrin, V. N., Gorbachev, V. V., Gorbunov, D. S., Haxton, W. C., Ibragimova, T. V., Kim, I., Kozlova, Yu. P., Kravchuk, L. V., Kuzminov, V. V., Lubsandorzhiev, B. K., Malyshkin, Yu. M., Massarczyk, R., Matveev, V. A., Mirmov, I. N., Nico, J. S., Petelin, A. L., Robertson, R. G. H., Sinclair, D., Shikhin, A. A., Tarasov, V. A., Trubnikov, G. V., Veretenkin, E. P., Wilkerson, J. F., Zvir, A. I.
The Baksan Experiment on Sterile Transitions (BEST) was designed to investigate the deficit of electron neutrinos, $\nu_{e}$, observed in previous gallium-based radiochemical measurements with high-intensity neutrino sources, commonly referred to as
Externí odkaz:
http://arxiv.org/abs/2109.11482
Autor:
Gavrin, V. N., Ibragimova, T. V., Kozlova, J. P., Tarasov, V. A., Veretenkin, E. P., Zvir, A. I.
Experiments to study non-standard properties of neutrinos using high-intensity artificial neutrino sources require high accuracy in determining their activity. A calorimetric system to determine the activity of a 51Cr neutrino source in the experimen
Externí odkaz:
http://arxiv.org/abs/2105.05120
Autor:
Malyshkin, Yu. M., Gangapshev, A. M., Gavrin, V. N., Ibragimova, T. V., Kochkarov, M. M., Kazalov, V. V., Kudrin, D. Yu., Kuzminov, V. V., Lubsandorzhiev, B. K., Novikova, G. Ya., Petkov, V. B., Sidorenkov, A. Yu., Ushakov, N. A., Veretenkin, E. P., Voronin, D. M., Yanovich, E. A.
The detectors based on the liquid scintillator (LS) monitored by an array of photo-multiplier tubes (PMT) are often used in low energy experiments such as neutrino oscillation studies and search for dark matter. Detectors of this kind operate in an e
Externí odkaz:
http://arxiv.org/abs/1909.03229
Autor:
Abazajian, K. N., Acero, M. A., Agarwalla, S. K., Aguilar-Arevalo, A. A., Albright, C. H., Antusch, S., Arguelles, C. A., Balantekin, A. B., Barenboim, G., Barger, V., Bernardini, P., Bezrukov, F., Bjaelde, O. E., Bogacz, S. A., Bowden, N. S., Boyarsky, A., Bravar, A., Berguno, D. Bravo, Brice, S. J., Bross, A. D., Caccianiga, B., Cavanna, F., Chun, E. J., Cleveland, B. T., Collin, A. P., Coloma, P., Conrad, J. M., Cribier, M., Cucoanes, A. S., D'Olivo, J. C., Das, S., de Gouvea, A., Derbin, A. V., Dharmapalan, R., Diaz, J. S., Ding, X. J., Djurcic, Z., Donini, A., Duchesneau, D., Ejiri, H., Elliott, S. R., Ernst, D. J., Esmaili, A., Evans, J. J., Fernandez-Martinez, E., Figueroa-Feliciano, E., Fleming, B. T., Formaggio, J. A., Franco, D., Gaffiot, J., Gandhi, R., Gao, Y., Garvey, G. T., Gavrin, V. N., Ghoshal, P., Gibin, D., Giunti, C., Gninenko, S. N., Gorbachev, V. V., Gorbunov, D. S., Guenette, R., Guglielmi, A., Halzen, F., Hamann, J., Hannestad, S., Haxton, W., Heeger, K. M., Henning, R., Hernandez, P., Huber, P., Huelsnitz, W., Ianni, A., Ibragimova, T. V., Karadzhov, Y., Karagiorgi, G., Keefer, G., Kim, Y. D., Kopp, J., Kornoukhov, V. N., Kusenko, A., Kyberd, P., Langacker, P., Lasserre, Th., Laveder, M., Letourneau, A., Lhuillier, D., Li, Y. F., Lindner, M., Link, J. M., Littlejohn, B. L., Lombardi, P., Long, K., Lopez-Pavon, J., Louis, W. C., Ludhova, L., Lykken, J. D., Machado, P. A. N., Maltoni, M., Mann, W. A., Marfatia, D., Mariani, C., Matveev, V. A., Mavromatos, N. E., Melchiorri, A., Meloni, D., Mena, O., Mention, G., Merle, A., Meroni, E., Mezzetto, M., Mills, G. B., Minic, D., Miramonti, L., Mohapatra, D., Mohapatra, R. N., Montanari, C., Mori, Y., Mueller, Th. A., Mumm, H. P., Muratova, V., Nelson, A. E., Nico, J. S., Noah, E., Nowak, J., Smirnov, O. Yu., Obolensky, M., Pakvasa, S., Palamara, O., Pallavicini, M., Pascoli, S., Patrizii, L., Pavlovic, Z., Peres, O. L. G., Pessard, H., Pietropaolo, F., Pitt, M. L., Popovic, M., Pradler, J., Ranucci, G., Ray, H., Razzaque, S., Rebel, B., Robertson, R. G. H., Rodejohann, W., Rountree, S. D., Rubbia, C., Ruchayskiy, O., Sala, P. R., Scholberg, K., Schwetz, T., Shaevitz, M. H., Shaposhnikov, M., Shrock, R., Simone, S., Skorokhvatov, M., Sorel, M., Sousa, A., Spergel, D. N., Spitz, J., Stanco, L., Stancu, I., Suzuki, A., Takeuchi, T., Tamborra, I., Tang, J., Testera, G., Tian, X. C., Tonazzo, A., Tunnell, C. D., Van de Water, R. G., Verde, L., Veretenkin, E. P., Vignoli, C., Vivier, M., Vogelaar, R. B., Wascko, M. O., Wilkerson, J. F., Winter, W., Wong, Y. Y. Y., Yanagida, T. T., Yasuda, O., Yeh, M., Yermia, F., Yokley, Z. W., Zeller, G. P., Zhan, L., Zhang, H.
This white paper addresses the hypothesis of light sterile neutrinos based on recent anomalies observed in neutrino experiments and the latest astrophysical data.
Externí odkaz:
http://arxiv.org/abs/1204.5379
Autor:
Veretenkin, E. P.1 (AUTHOR), Gavrin, V. N.1 (AUTHOR), Komarov, B. A.1 (AUTHOR), Kozlova, Yu. P.1 (AUTHOR), Lukanov, A. D.1 (AUTHOR), Morgalyuk, V. P.2 (AUTHOR), Nemeryuk, A. M.3 (AUTHOR), Novikova, G. Ya.1 (AUTHOR) g-novikova@mail.ru
Publikováno v:
Physics of Atomic Nuclei. Dec2022, Vol. 85 Issue 6, p664-672. 9p.
We propose to place a very intense source of 51Cr at the center of a 50-tonne target of gallium metal that is divided into two concentric spherical zones and to measure the neutrino capture rate in each zone. This experiment can set limits on transit
Externí odkaz:
http://arxiv.org/abs/1006.2103
Autor:
SAGE Collaboration, Abdurashitov, J. N., Gavrin, V. N., Gorbachev, V. V., Gurkina, P. P., Ibragimova, T. V., Kalikhov, A. V., Khairnasov, N. G., Knodel, T. V., Mirmov, I. N., Shikhin, A. A., Veretenkin, E. P., Yants, V. E., Zatsepin, G. T., Bowles, T. J., Elliott, S. R., Teasdale, W. A., Nico, J. S., Cleveland, B. T., Wilkerson, J. F.
Publikováno v:
Phys.Rev.C80:015807,2009
The Russian-American experiment SAGE began to measure the solar neutrino capture rate with a target of gallium metal in Dec. 1989. Measurements have continued with only a few brief interruptions since that time. We give here the experimental improvem
Externí odkaz:
http://arxiv.org/abs/0901.2200
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