Zobrazeno 1 - 10
of 221
pro vyhledávání: '"V M Nesterov"'
Autor:
V. V. Abramov, I. L. Azhgirey, A. A. Borisov, S. I. Bukreeva, A. N. Vasiliev, V. I. Garkusha, Yu. M. Goncharenko, A. M. Gorin, A. A. Derevshchikov, V. N. Zapolsky, A. N. Isaev, N. K. Kalugin, V. A. Kachanov, A. S. Kozhin, A. K. Likhoded, A. V. Luchinsky, E. V. Maslova, V. A. Maisheev, Yu. M. Melnik, A. P. Meshchanin, N. G. Minaev, V. V. Moiseev, D. A. Morozov, V. V. Mochalov, K. D. Novikov, L. V. Nogach, S. V. Poslavsky, A. F. Prudkoglyad, S. V. Ryzhikov, V. I. Rykalin, A. D. Ryabov, T. D. Ryabova, A. V. Ryazantsev, P. A. Semenov, V. A. Senko, S. R. Slabospitsky, M. M. Soldatov, L. F. Solovyov, A. V. Uzunyan, R. M. Fakhrutdinov, N. A. Shalanda, V. I. Yakimchuk, A. E. Yakutin, N. A. Bazhanov, D. V. Belov, N. S. Borisov, V. P. Volnykh, S. V. Goloskokov, I. S. Gorodnov, A. S. Dolzhikov, A. B. Lazarev, A. B. Neganov, Yu. A. Plis, O. V. Teryaev, A. N. Fedorov, Yu. N. Uzikov, Yu. A. Usov, A. A. Bogdanov, M. B. Nurusheva, V. A. Okorokov, V. L. Rykov, M. N. Strikhanov, I. G. Alekseev, V. M. Nesterov, V. V. Ryltsov, E. I. Samigullin, D. N. Svirida, V. A. Andreev, A. B. Gridnev, N. G. Kozlenko, V. S. Kozlov, V. A. Kuznetsov, D. V. Novinsky, V. I. Tarakanov, V. S. Temirbulatov, I. A. Tsurakov, V. I. Krivoruchko
Publikováno v:
Physics of Particles and Nuclei. 54:69-184
Publikováno v:
Solar System Research. 56:476-484
Autor:
V. Belov, Yu. Shitov, N. Pogorelov, M. Danilov, Ye. Shevchik, A. S. Kuznetsov, D. Medvedev, G. G. Guzeev, N. Rumyantseva, V. M. Nesterov, I. Zhitnikov, V. A. Khvatov, M. Shirchenko, D. Ponomarev, I. V. Machikhiliyan, M. Fomina, E. Samigullin, A. Starostin, I. Rozova, E. Tarkovsky, V. Yu. Rusinov, D. R. Zinatulina, A.G. Olshevsky, D.V. Filosofov, V. M. Chapaev, S. Kazartsev, V. G. Egorov, I. G. Alekseev, V. B. Brudanin, D. N. Svirida, N. Skrobova, A. S. Kobyakin
Publikováno v:
Physics of Atomic Nuclei. 82:415-424
Detection of antineutrino by the reaction of the inverse β-decay can be used for an independent monitoring of a nuclear reactor power. DANSS detector is located directly under a commercial WWER-1000 reactor and counts up to 5000 antineutrino per day
Autor:
A. S. Starostin, A. S. Kobyakin, I. V. Machikhiliyan, D. N. Svirida, I. G. Alekseev, V. M. Nesterov, D. V. Kalinkin, N. A. Skrobova
Publikováno v:
Instruments and Experimental Techniques. 61:349-354
The detection equipment of the DANSS setup includes 2500 silicon photomultipliers and approximately 100 photomultiplier tubes (PMTs). The system of data acquisition from these photosensors is based on waveform digitization, with which it is possible
Autor:
V. M. Nesterov, E. Tarkovsky, D. N. Svirida, A. Starostin, V. Yu. Rusinov, D. V. Kalinkin, N. Pogorelov, I. G. Alekseev, I. V. Machikhiliyan
Publikováno v:
Instruments and Experimental Techniques. 61:328-331
The transverse nonuniformity of the light yield in scintillator strips of the DANSS detector was investigated on a test setup that was specially designed for this purpose using proportional chambers with a wire pitch of 1 mm. It is shown that using t
Autor:
V. Belov, Yu. Shitov, I. Zhitnikov, I. G. Alekseev, D. R. Zinatulina, D.V. Filosofov, I. Rozova, I. V. Machikhiliyan, V. M. Nesterov, J. Vlasek, M. Fomina, N. Rumyantseva, V. Rusinov, D. N. Svirida, A. Starostin, N. Skrobova, E. Tarkovsky, A. S. Kobyakin, N. Pogorelov, A.G. Olshevsky, M. Shirchenko, M. Danilov, A. A. Kuznetsov, Ye. Shevchik, D. Medvedev, D. Ponomarev, V. G. Egorov, V. B. Brudanin, Z. Hons, E. Samigullin, S. Kazartsev
Publikováno v:
Physics Letters B, Vol 787, Iss, Pp 56-63 (2018)
Physics Letters
Physics Letters
DANSS is a highly segmented 1~m${}^3$ plastic scintillator detector. Its 2500 one meter long scintillator strips have a Gd-loaded reflective cover. The DANSS detector is placed under an industrial 3.1~$\mathrm{GW_{th}}$ reactor of the Kalinin Nuclear
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a68c7a8ef288d8ac6e113ec789085f53
Autor:
D. V. Kalinkin, L. I. Koroleva, N. G. Kozlenko, V. M. Nesterov, I. I. Strakovsky, A. B. Gridnev, W. J. Briscoe, A. G. Krivshich, V. S. Kozlov, D. N. Svirida, M. E. Sadler, V. Yu. Trautman, V. A. Andreev, A. D. Sulimov, V. V. Sumachev, V. Kuznetsov, V. V. Ryltsov, I. Bordyuzhin, V. Tarakanov, Ye. A. Filimonov, Ron L. Workman, D. V. Novinsky, B. V. Morozov, I. G. Alekseev, V. V. Golubev
Publikováno v:
Physical Review C. 93
The analysis of high-precision ${\ensuremath{\pi}}^{\ifmmode\pm\else\textpm\fi{}}p\ensuremath{\rightarrow}{\ensuremath{\pi}}^{\ifmmode\pm\else\textpm\fi{}}p$ cross-sectional data from the EPECUR Collaboration based on the multichannel $K$-matrix appr
Autor:
Vahan Nikoghosyan, S.T. Pashayan, V.S. Kuzanyan, S Kh Pilosyan, Armen S. Kuzanyan, V. H. Vardanyan, A.Z. Grasyuk, V. T. Tatoyan, V M Nesterov
Publikováno v:
International Journal of Modern Physics: Conference Series. 15:161-169
Ceramic samples of copper oxide were synthesized and their microstructure, elemental composition and electrical properties were investigated before and after the influence of YAG : Nd laser radiation. It was discovered that laser radiation leads to t
Publikováno v:
Quantum Electronics. 41:253-256
A new method for fabricating large-area thin films of uniform thickness on a rotating substrate is proposed. Its distinctive features are (i) the presence of a diaphragm, partially transmitting the evaporated material, between the target and substrat
Autor:
I. G. Alekseev, A.G. Olshevsky, A.V. Salamatin, V. Belov, Yu. Shitov, V. M. Nesterov, V. Rusinov, M. Shirchenko, N. Pogorelov, E. Tarkovsky, D. Ponomarev, E. Samigullin, Ye. Shevchik, I. Zhitnikov, I. Tikhomirov, S. Kazartsev, A. Starostin, M. Fomina, I. V. Machikhiliyan, D. R. Zinatulina, J. Vlasek, N. Rumyantseva, N. Skrobova, V. G. Egorov, A. S. Kobyakin, D.V. Filosofov, D. Medvedev, V. B. Brudanin, D. N. Svirida, A. A. Kuznetsov, Z. Hons, I. Rozova, M. Danilov
Publikováno v:
International Journal of Modern Physics: Conference Series. 46:1860044
Measurements of reactor antineutrino play an important role in the efforts at the frontier of the modern physics. The DANSS collaboration presents preliminary results of a one year run with a cubic meter solid state detector placed below 3.1 GW indus