Zobrazeno 1 - 10
of 704
pro vyhledávání: '"Zagorodnikov A."'
Autor:
Avrorin A.D., Avrorin A.V., Aynutdinov V.M., Bannash R., Belolaptikov I.A., Brudanin V.B., Budnev N.M., Domogatsky G.V., Doroshenko A.A., Dvornický R., Dyachok A.N., Dzhilkibaev Zh.-A.M., Fajt L., Fialkovsky S.V., Gafarov A.R., Golubkov K.V., Gorshkov N.S., Gress T.I., Kebkal K.G., Kebkal O.G., Khramov E.V., Kolbin M.M., Konischev K.V., Korobchenko A.V., Koshechkin A.P., Kozhin V.A., Kruglov M.V., Kryukov M.K., Kulepov V.F., Kuleshov D.A., Milenin M.B., Mirgazov R.A., Nazari V., Panfilov A.I., Petukhov D.P., Pliskovsky E.N., Rozanov M.I., Rjabov E.V., Rushay V.D., Safronov G.B., Shaybonov B.A., Shelepov M.D., Šimkovic F., Štekl I., Solovjev A.G., Sorokovikov M.N., Suvorova O.V., Tabolenko V.A., Tarashansky B.A., Yakovlev S.A., Zagorodnikov A.V.
Publikováno v:
EPJ Web of Conferences, Vol 207, p 09002 (2019)
We present data on the luminescence of the Baikal water medium collected with the Baikal-GVD neutrino telescope. This three-dimensional array of light sensors allows the observation of time and spatial variations of the ambient light field. In 2016,
Externí odkaz:
https://doaj.org/article/b9ad27fb51344ba1a66ce2b742e9f967
Autor:
Marshalkina T., Bezyazeekov P.A., Budnev N.M., Chernykh D., Fedorov O., Gress O.A., Haungs A., Hiller R., Huege T., Kazarina Y., Kleifges M., Kostunin D., Korosteleva E.E., Kuzmichev L.A., Lenok V., Lubsandorzhiev N., Mirgazov R.R., Monkhoev R., Osipova E., Pakhorukov A., Pankov L., Prosin V.V., Schröder F.G., Shipilov D., Zagorodnikov A.
Publikováno v:
EPJ Web of Conferences, Vol 216, p 02012 (2019)
The Tunka Radio Extension (Tunka-Rex) is a digital antenna array for the detection of radio emission from cosmic-ray air showers in the frequency band of 30 to 80 MHz and for primary energies above 100 PeV. The standard analysis of Tunka-Rex includes
Externí odkaz:
https://doaj.org/article/33824a5b0f964402a625ac3fa66a0bf7
Autor:
Prosin V., Astapov I., Bezyazeekov P., Borodin A., Brückner M., Budnev N., Chiavassa A., Dyachok A., Fedorov O., Gafarov A., Garmash A., Grebenyuk V., Gress O., Gress T., Grishin O., Grinyuk A., Horns D., Kalmykov N., Kazarina Y., Kindin V., Kiryuhin S., Kirilenko P., Kokoulin R., Kompaniets K., Korosteleva E., Kozhin V., Kravchenko E., Kuzmichev L., Lagutin A., Lemeshev Yu., Lenok V., Lubsandorzhiev B., Lubsandorzhiev N., Mirgazov R., Mirzoyan R., Monkhoev R., Osipova E., Pakhorukov A., Pan A., Panasyuk M., Pankov L., Petrukhin A., Poleschuk V., Popescu M., Popova E., Porelli A., Postnikov E., Ptuskin V., Pushnin A., Raikin R., Rjabov E., Rubtsov G., Sagan Y., Samoliga V., Semeney Yu., Sidorenkov A., Silaev A., Silaev (junior) A., Skurikhin A., Slunecka M., Sokolov A., Spiering C., Sveshnikova L., Tabolenko V., Tarashansky B., Tkachev L., Tluczykont M., Ushakov N., Voronin D., Wischnewski R., Zagorodnikov A., Zhurov D., Zurbanov V., Yashin I.
Publikováno v:
EPJ Web of Conferences, Vol 210, p 01003 (2019)
The extensive air shower Cherenkov light array Tunka-133 collected data during 7 winter seasons from 2009 to 2017. From 2175 hours of data taking, we derived the differential energy spectrum of cosmic rays in the energy range 6 · 1015 2 · 1018 eV.
Externí odkaz:
https://doaj.org/article/02e508125001476e940989ba889744d9
Autor:
Avrorin A.D., Avrorin A.V., Aynutdinov V.M., Bannash R., Belolaptikov I.A., Brudanin V.B., Budnev N.M., Doroshenko A.A., Domogatsky G.V., Dvornický R., Dyachok A.N., Dzhilkibaev Zh.-A.M., Fajt L., Fialkovsky S.V., Gafarov A.R., Golubkov K.V., Gorshkov N.S., Gres T.I., Kebkal K.G., Kebkal O.G., Khramov E.V., Kolbin M.M., Konischev K.V., Korobchenko A.P., Koshechkin A.P., Kozhin V.A., Kruglov M.V., Kryukov M.K., Kulepov V.F., Kuleshov D.A., Milenin M.B., Mirgazov R.A., Nazari V., Panfilov A.I., Petukhov D.P., Pliskovsky E.N., Rozanov M.I., Rjabov E.V., Rushay V. D., Safronov G.B., Shaibonov B.A., Šimkovic F., Shelepov M.D., Shtekl I., Solovjev A.G., Sorokovikov M.N., Suvorova O.V., Tabolenko V.A., Tarashansky B.A., Yakovlev S.A., Zagorodnikov A.V.
Publikováno v:
EPJ Web of Conferences, Vol 207, p 07003 (2019)
Baikal-GVD is a cubic-kilometer scale neutrino telescope, which is currently under construction in Lake Baikal. Baikal-GVD is an array of optical modules arranged in clusters. The first cluster of the array has been deployed and commissioned in April
Externí odkaz:
https://doaj.org/article/5f72fca27cc0411893e3f887e5d6f85d
Autor:
Kostunin D., Bezyazeekov P.A., Budnev N.M., Chernykh D., Fedorov O., Gress O.A., Haungs A., Hiller R., Huege T., Kazarina Y., Kleifges M., Korosteleva E.E., Kuzmichev L.A., Lenok V., Lubsandorzhiev N., Marshalkina T., Monkhoev R., Osipova E., Pakhorukov A., Pankov L., Prosin V.V., Schröder F.G., Shipilov D., Zagorodnikov A.
Publikováno v:
EPJ Web of Conferences, Vol 216, p 01005 (2019)
The Tunka Radio Extension (Tunka-Rex) is a digital radio array operating in the frequency band of 30-80 MHz and detecting radio emission from air-showers produced by cosmic rays with energies above 100 PeV. The experimentis installed at the site of t
Externí odkaz:
https://doaj.org/article/a77888b508104ffda07ee7b8a2711e8a
Autor:
Avrorin A.D., Avrorin A.V., Aynutdinov V.M., Bannash R., Belolaptikov I.A., Brudanin V.B., Budnev N.M., Doroshenko A.A., Domogatsky G.V., Dvornický R., Dyachok A.N., Dzhilkibaev Zh.-A.M., Fajt L., Fialkovsky S.V., Gafarov A.R., Golubkov K.V., Gorshkov N.S., Gres T.I., Kebkal K.G., Kebkal O.G., Khramov E.V., Kolbin M.M., Konischev K.V., Korobchenko A.P., Koshechkin A.P., Kozhin V.A., Kruglov M.V., Kryukov M.K., Kulepov V.F., Kuleshov D.A., Milenin M.B., Mirgazov R.A., Nazari V., Panfilov A.I., Petukhov D.P., Pliskovsky E.N., Rozanov M.I., Rjabov E.V., Rushay V.D., Safronov G.B., Shaibonov B.A., Šimkovic F., Shelepov M.D., Shtekl I., Solovjev A.G., Sorokovikov M.N., Suvorova O.V., Tabolenko V.A., Tarashansky B.A., Yakovlev S.A., Zagorodnikov A.V.
Publikováno v:
EPJ Web of Conferences, Vol 207, p 05001 (2019)
Baikal-GVD is a next generation, kilometer-scale neutrino telescope currently under construction in Lake Baikal. GVD is formed by multi-megaton subarrays (clusters) and is designed for the detection of astrophysical neutrino fluxes at energies from a
Externí odkaz:
https://doaj.org/article/a0cd58cca0ab4104a195ab3ba380bb67
Autor:
Avrorin A.D., Avrorin A.V., Aynutdinov V.M., Bannash R., Belolaptikov I.A., Brudanin V.B., Budnev N.M., Doroshenko A.A., Domogatsky G.V., Dvornický R., Dyachok A.N., Dzhilkibaev Zh.-A.M., Fajt L., Fialkovsky S.V., Gafarov A.R., Golubkov K.V., Gorshkov N.S., Gres T.I., Kebkal K.G., Kebkal O.G., Khramov E.V., Kiktenko E. O., Kolbin M.M., Konischev K.V., Korobchenko A.P., Korotaev S.M., Koshechkin A.P., Kozhin V.A., Kruglov M.V., Kryukov M.K., Kulepov V.F., Kuleshov D.A., Lovtsov S.V., Milenin M.B., Mirgazov R.A., Nazari V., Panfilov A.I., Petukhov D.P., Pliskovsky E.N., Portyanskaya I.A., Rozanov M.I., Rjabov E.V., Rushay V.D., Safronov G.B., Serdyuk V.O., Shaibonov B.A., Šimkovic F., Shelepov M.D., Shtekl I., Solovjev A.G., Sorokovikov M.N., Sturm M., Suvorova O.V., Tabolenko V.A., Tarashansky B.A., Troitskaya E.S., Yakovlev S.A., Zagorodnikov A.V.
Publikováno v:
EPJ Web of Conferences, Vol 207, p 09001 (2019)
Lake Baikal in Siberia is one of the most interesting lakes in the world. It is the world’s largest reservoir of fresh surface water and home to several hundred endemic species. At the same time it harboured the first underwater neutrino telescope
Externí odkaz:
https://doaj.org/article/c66a7702d8004a9fae06d65e3b4c0553
Autor:
Avrorin A.D., Avrorin A.V., Aynutdinov V.M., Bannash R., Belolaptikov I.A., Brudanin V.B., Budnev N.M., Doroshenko A.A., Domogatsky G.V., Dvornický R., Dyachok A.N., Dzhilkibaev Zh.-A.M., Fajt L., Fialkovsky S.V., Gafarov A.R., Golubkov K.V., Gorshkov N.S., Gres T.I., Kebkal K.G., Kebkal O.G., Khramov E.V., Kolbin M.M., Konischev K.V., Korobchenko A.V., Koshechkin A.P., Kozhin V.A., Kruglov M.V., Kryukov M.K., Kulepov V.F., Kuleshov D.A., Milenin M.B., Mirgazov R.A., Nazari V., Panfilov A.I., Petukhov D.P., Pliskovsky E.N., Rozanov M.I., Rjabov E.V., Rushay V.D., Safronov G.B., Šimkovic F., Skurichin A.V., Shaybonov B.A., Solovjev A.G., Sorokovikov M.N., Shelepov M.D., Suvorova O.V., Shtekl I., Tabolenko V.A., Tarashansky B.A., Yakovlev S.A., Zagorodnikov A.V.
Publikováno v:
EPJ Web of Conferences, Vol 207, p 01003 (2019)
Currently in Lake Baikal a new-generation neutrino telescope is being deployed: Baikal-GVD, a deep underwater Cherenkov detector on the cubic-kilometer scale. This paper presents the status of the detector implementation and the first physical result
Externí odkaz:
https://doaj.org/article/b686937a04b6418a80d03ccf655f9bad
Autor:
Avrorin A.D., Avrorin A.V., Aynutdinov V.M., Bannash R., Belolaptikov I.A., Brudanin V.B., Budnev N.M., Domogatsky G.V., Doroshenko A.A., Dvornicky R., Dyachok A.N., Dzhilkibaev Zh.-A.M., Fajt L., Fialkovsky S.V., Gafarov A.R., Golubkov K.V., Gress T.I., Honz Z., Kebkal K.G., Kebkal O.G., Khramov E.V., Kolbin M.M., Konischev K.V., Korobchenko A.V., Koshechkin A.P., Kozhin A.V., Kulepov V.F., Kuleshov D.A., Milenin M.B., Mirgazov R.A., Osipova E.R., Panfilov A.I., Pan’kov L.V., Pliskovsky E.N., Rozanov M.I., Rjabov E.V., Rushay V.D., Safronov G.B., Shaybonov B.A., Shelepov M.D., Stekl I., Simkovic F., Skurihin A.V., Solovjev A.G., Sorokovnikov M.N., Suvorova O.V., Tabolenko V.A., Tarashansky B.A., Yakovlev S.A., Zagorodnikov A.V., Zurbanov V.L.
Publikováno v:
EPJ Web of Conferences, Vol 209, p 01015 (2019)
Next generation cubic kilometer scale neutrino telescope Baikal-GVD is currently under construction in Lake Baikal. The detector is specially designed for search for high energies neutrinos whose sources are not yet reliably identified. Since April 2
Externí odkaz:
https://doaj.org/article/e5ceca1480e24715bf1794cf0ceebb43
Autor:
Shipilov D., Bezyazeekov P.A., Budnev N.M., Chernykh D., Fedorov O., Gress O.A., Haungs A., Hiller R., Huege T., Kazarina Y., Kleifges M., Korosteleva E.E., Kostunin D., Kuzmichev L.A., Lenok V., Lubsandorzhiev N., Marshalkina T., Monkhoev R., Osipova E., Pakhorukov A., Pankov L., Prosin V.V., Schröder F.G., Zagorodnikov A.
Publikováno v:
EPJ Web of Conferences, Vol 216, p 02003 (2019)
The Tunka Radio Extension (Tunka-Rex) is a digital antenna array, which measures radio emission of the cosmic-ray air-showers in the frequency band of 30-80 MHz. Tunka-Rex is co-located with the TAIGA experiment in Siberia and consists of 63 antennas
Externí odkaz:
https://doaj.org/article/231982c5841545f8b7b6590a70bdac3e