| Жежер Яна Валерьевна | Т | 811,0 | | 2к | 27.01.2020 | |
1) Жежер Яна Валерьевна
21.10.1992
М.н.с. ЛОБД
2) R.U. Abbasi et al. [Telescope Array Collaboration], ``Evidence for Declination Dependence of Ultrahigh Energy Cosmic Ray Spectrum in the Northern Hemisphere,'' [arXiv:1801.07820 [astro-ph.HE]
3*0.06 = 0.18 балла
R.U. Abbasi et al. [Telescope Array Collaboration], ``Depth of Ultra High Energy Cosmic Ray Induced Air Shower Maxima Measured by the Telescope Array Black Rock and Long Ridge FADC Fluorescence Detectors and Surface Array in Hybrid Mode,'' Astrophys. J. 858, no. 2, 76 (2018)
5.551*30*0.06 = 10 баллов
R.U. Abbasi et al. [Telescope Array Collaboration], ``The Cosmic-Ray Energy Spectrum between 2 PeV and 2 EeV Observed with the TALE detector in monocular mode,'' Astrophys. J. 865, no. 1, 74 (2018)
5.551*30*0.06 = 10 баллов
R.U. Abbasi et al. [Telescope Array Collaboration], ``Study of muons from ultrahigh energy cosmic ray air showers measured with the Telescope Array experiment,'' Phys. Rev. D 98, no. 2, 022002 (2018)
4.394*30*0.06 = 7.9 баллов
I.I. Karpikov, G.I. Rubtsov and Y.V. Zhezher, ``Lower limit on the ultra-high-energy proton-to-helium ratio from the measurements of the tail of $X_{\mathrm{max}}$ distribution',' Phys.Rev. D98 (2018) no.10, 103002
4.394*30/3 = 43.94 балла
Y. Zhezher “Ultra-high-energy cosmic rays mass composition studies with the Telescope Array Surface Detector data”, EPJ Web of Conferences 191, 08007 (2018)
8 баллов
R.U. Abbasi et al. [Telescope Array Collaboration], ``Testing a Reported Correlation between Arrival Directions of Ultra-high-energy Cosmic Rays and a Flux Pattern from nearby Starburst Galaxies using Telescope Array Data,'' Astrophys. J. 867, no. 2, L27 (2018)
5.551*30*0.06 = 10 баллов
D.D. Dzhappuev et al., ``Carpet-2 search for PeV gamma rays associated with IceCube high-energy neutrino events,'' accepted to publication at JETP Letters (2018)
1.363*60*1.5*0.1 = 12.27 балла
G. Rubtsov, Y. Zhezher “Spatial Structure of the WMAP-Planck Haze”, [arXiv:1812.05228 [astro-ph.GA]]
3/2 = 1.5 балла
R.~U.~Abbasi {\it et al.} [Telescope Array Collaboration], ``Constraints on the diffuse photon flux with energies above $10^{18}$ eV using the surface detector of the Telescope Array experiment,'' [arXiv:1811.03920 [astro-ph.HE]]
3*0.06 = 0.18 балла
M. Kuznetsov et al., ``Composition Studies with the Telescope Array Surface Detector,'' JPS Conf. Proc. 19, 011035 (2018)
8/5 = 1.6 балла
R.U. Abbasi et al. [Telescope Array Collaboration], ``Mass composition of ultra-high-energy cosmic rays with the Telescope Array Surface Detector Data,'' Phys. Rev. D 99, no. 2, 022002 (2019)
4.394*30*0.06 = 7.9 балла
D.D. Dzhappuev et al., ``Search for astrophysical PeV gamma rays from point sources with Carpet-2,'' EPJ Web Conf.\ {\bf 207}, 03004 (2019)
8*1.5*0.1 = 1.2 балла
R.U. Abbasi et al. [Telescope Array Collaboration], ``Constraints on the diffuse photon flux with energies above $10^{18}$ eV using the surface detector of the Telescope Array experiment'', Astropart. Phys. 110, 8 (2019)
5.524*30*0.06 = 9,94 баллов
H.P. Dembinski et al. [EAS-MSU and IceCube and KASCADE-Grande and NEVOD-DECOR and Pierre Auger and SUGAR and Telescope Array and Yakutsk EAS Array Collaborations], ``Report on Tests and Measurements of Hadronic Interaction Properties with Air Showers'', EPJ Web Conf. 210, 02004 (2019)
8*1.5*0.1 = 1.2 балла
R.U. Abbasi et al. [Telescope Array Collaboration], ``Search for point sources of ultra-high energy photons with Telescope Array surface detector,'' accepted to publication at MNRAS (2019)
5.231*30*0.06 = 9,4 балла
O.E. Kalashev, M.Y. Kuznetsov and Y.V. Zhezher, ``Dark matter component decaying after recombination: constraints from diffuse gamma-ray and neutrino flux measurements,'' JCAP10(2019)039.
5.524*30/3 = 55.24 балла
S.~Troitsky, D.~Dzhappuev and Y.~Zhezher, ``Carpet results on astrophysical gamma rays above 100 TeV’’, PoS(ICRC2019)808
8*1.5/3 = 4 балла
Ya.V. Zhezher, ``Chemical Composition of Ultrahigh-Energy Cosmic Rays from the Telescope Array Surface Detector Data'', Bulletin of the Russian Academy of Sciences: Physics, 2019, Vol. 83, No. 8, pp. 1008–1009
0.23*60 = 13.8 балла
Y. Zhezher, G. Rubtsov, P.~ okolsky and S. Troitsky, “``Anisotropy in the mass composition from the Telescope Array Surface Detector data’’, PoS(ICRC2019)494
8/4 = 2 балла
Y. Zhezher, ``Lower limit on the ultra-high-energy proton-to-helium ratio from the measurements of the tail of X max distribution,'' J. Phys. Conf. Ser. 1181, no. 1, 012031 (2019)
8 баллов
Y. Zhezher, ``Study of Muons in Ultra-High-Energy Cosmic-Ray Air Showers with the Telescope Array Experiment,’’ Physics of Atomic Nuclei 82, No. 6, pp. 685–688 (2019)
0.458*60 = 27.48 балла
3) Конференции:
XXth Quarks International Seminar
https://q2018.inr.ac.ru/event/1/timetable/#20180527.detailed
25 баллов
26th Extended European Cosmic Ray Symposium and 35th Russian Cosmic Ray Conference
https://ecrs18.asu.ru/event/1/attachments/3/12/ECRS-Program.pdf
10+10 = 20 баллов
ISAPP: LHC meets cosmic rays (2018)
https://indico.cern.ch/event/719824/
10 баллов
ISCRA symposium
https://iscra2019.mephi.ru/
25 баллов
36th International Cosmic Ray Conference (ICRC-2019)
https://www.icrc2019.org/
10 + 15/4 = 13.75 балла
19th Lomonosov Conference on Elementary Particle Physics
http://lomcon.ru/
25 баллов
4) Научно-образовательные курсы
Семинары по курсу “Астрофзика частиц” на физическом факультете МГУ им. М.В. Ломоносова, весенний семестр 2018 года
8 баллов
Курс “Задачи по астрофизике высоких энергий”, на физическом факультете МГУ им. М.В. Ломоносова, осенний семестр 2018 года
8 баллов
5) Организация и проведение конференций
Ученый секретарь конференции “Кварки-2018”, Валдай, 2018
https://q2018.inr.ac.ru/event/1/
10 баллов
6) Патенты
Я.В. Жежер, Г.И. Рубцов, Программа определения масс первичных частиц космических лучей регистрируемых в эксперименте Telescope Array (mva_pFe_ds8), №2019616396, 22.05.2019
30/2 = 15 баллов
Итого: 405.48 * 2 (коэффициент для защитивших кандидатскую диссертацию) = 810.96