prnd 2021

Рейтинг (ПРНД) сотрудников ИЯИ РАН сезона 2021 [306]

по группам: Теоретическая физика, Ядерная физика, Нейтринная физика и КЛ, физика Частиц, Ускорительная физика, Междисциплинарные исследования

ФИО	ГР	ПРНД	к-т умно жения	дата
Сидоренков Андрей Юрьевич	Н	76,7	1,5а	23.01.2021

Сидоренков Андрей Юрьевич
аспирант 2-го года обучения

2019
1.   Astapov I., Bezyazeekov P., Borodin A., …, Sidorenkov A. et al.
Scintillation detectors for the TAIGA experiment // Nuclear Instruments and Methods in Physics Research, Section A. 2019. V.936. P.254. DOI:10.1016/j.nima.2018.10.081
1,265x30x0,07x1,5=3,985
2. L.G. Sveshnikova, I.I. Astapov, P.A. Bezyazeekov, …, A. Yu. Sidorenkov et. al.
First Season of Operation of the TAIGA Hybrid Cherenkov Array // Bull. Russ. Acad. Sci. 83 (2019) 8. 962-966. DOI: 10.3103/S1062873819080379
0,612х60х0,07х1,5=3,856
3. V.V. Prosin, I.I. Astapov, P.A. Bezyazeekov, …, A. Yu. Sidorenkov et. al. Energy Spectrum of Primary Cosmic Ray According to Tunka-133 and TAIGA-HiSCORE EAS Cherenkov Light Data // Bull. Russ. Acad. Sci. 83 (2019) 8. 1016-1019. DOI: 10.3103/S1062873819080343
0,612х60х0,07х1,5=3,856
4. E.B. Postnikov, I.I. Astapov, P.A. Bezyazeekov, …, A. Yu. Sidorenkov et. al. Monte Carlo Simulation of the TAIGA experiment // Bull. Russ. Acad. Sci. 83 (2019) 8. 955-958. DOI: 10.3103/S1062873819080331
0,612х60х0,07х1,5=3,856
5. N.M. Budnev, I.I. Astapov, P.A. Bezyazeekov, …, A. Yu. Sidorenkov et. al.
TAIGA: A Complex of Hybrid Systems of Cooperating Detectors for Gamma Astronomy and Cosmic Ray Physics in the Tunka Valley // Bull. Russ. Acad. Sci. 83 (2019) 8. 951-954. DOI: 10.3103/S1062873819080100
0,612х60х0,07х1,5=3,856
6. L. Kuzmichev, I. Astapov, P. Bezyazeekov, …, A. Sidorenkov et al.
TAIGA:results and perspective // The European Physical Journal Conferences 207(5):03003 (2019).
0,296x30x0,07x1,5=0,932
7. V. Prosin, I. Astapov, P. Bezyazeekov, ………., A. Sidorenkov et al.
Cosmic Ray Energy Spectrum derived from the Data of EAS Cherenkov Light Arrays in the Tunka Valley // The European Physical Journal Conferences 210:01003 (2019).
0,296x30x0,07x1,5=0,932
8. D. Kostunin, I.I. Astapov, P.A. Bezyazeekov, …, A. Yu. Sidorenkov et al. Tunka Advanced Instrument for cosmic ray and Gamma Astronomy // arxiv:1903.07460
8x0,07x1,5=0,84
9. N. Lubsandorzhiev, I. Astapov, P. Bezyazeekov, …, A. Sidorenkov et al. The hybrid installation TAIGA: design, status and preliminary results // PoS (ICRC2019) 729.
8x0,07x1,5=0,84
Y. Sagan, I. Astapov, A. Borodin, ………., A. Sidorenkov et al. TAIGA observatory: IACT fabrication and tests // PoS (ICRC 2019) 776.
8x0,07x1,5=0,84
10. S. Lubsandorzhiev, A. Sidorenkov, B. Lubsandorzhiev, …, A. Sidorenkov et al. Development of new liquid scintillators for neutrino experiments of next generation // PoS (ICRC2019) 946.
8х0,125х1,5=1,5
11. S. Lubsandorzhiev, A. Sidorenkov, B. Lubsandorzhiev, … et al. Development of medium and small size photomultipliers for neutrino experiments // PoS (ICRC2019) 948.
8х0,125х1,5=1,5
12. S. Lubsandorzhiev, B. Lubsandorzhiev, E. Vyatchin, …, A. Sidorenkov et al.
Imitators of Cherenkov and scintillation light pulses based on fast LEDs // PoS (ICRC2019) 947.
8х0,3х1,5=3,6
13. D. Kostunin, I.I. Astapov, P.A. Bezyazeekov, …, A. Sidorenkov et.
Tunka Advanced Instrument for cosmic ray and Gamma Astronomy // J. Phys.: Conf. Ser. 2019. V.1263. 012006
0,574х30х0,07х1,5=1,808
14. D. Zhurov, I.I. Astapov, P.A. Bezyazeekov, …, A. Yu. Sidorenkov et al.
First result of the tracking system calibration of the TAIGA-IACT Telescope // J. Phys. Conf. Ser. 1181 (2019) no.1. 012045.
0,574х30х0,07х1,5=1,808
ПРНД=34,009
2020
1.   V. B. Petkov, A. N. Fazliakhmetov, A. M. Gangapshev, …, A.Yu. Sidorenkov et al.
Baksan large volume scintillation telescope: a current status // Journal of Physics: Conference Series, 1468,012244 (2020). DOI:10.1088/1742-6596/1468/1/012244
0,574x30x0,125x1,5=3,229
2.   N. Budnev, I. Astapov, P. Bezyazeekov, …, A. Sidorenkov et al.
TAIGA—an advanced hybrid detector complex for astroparticle physics and high energy gamma-ray astronomy in the Tunka valley // (2020) Journal of Instrumentation, V.15, C09031. DOI:10.1088/1748-0221/15/09/c09031
1,454x30x0,07x1,5=4,58
3. D. Chernov, I. Astapov, P. Bezyazeekov, …, A. Sidorenkov et al. Development of a novel wide-angle gamma-ray imaging air Cherenkov telescope with SiPM-based camera for the TAIGA hybrid installation // (2020) Journal of Instrumentation, V.15, C09062. DOI:10.1088/1748-0221/15/09/C09062
1,454x30x0,07x1,5=4,58
4. A. Ivanova, N. Budnev, A. Chiavassa, …, A. Sidorenkov et al. Design features and data acquisition system of the TAIGA-Muon scintillation array // (2020) Journal of Instrumentation, V.15, C06057. DOI:10.1088/1748-0221/15/06/c06057
1,454x30x0,07x1,5= 4,58
5. Astapov, P. Bezyazeekov, A. Borodin, ………., A. Sidorenkov et al. An approach for identification of ultrahigh energy extensive air showers with scintillation detectors of TAIGA experiment // (2020) Journal of Instrumentation, V.15. N.9. C09037 DOI: 10.1088/1748-0221/15/09/C09037
1,454х30х0,07х1,5= 4,58
6. Yu. Malyshkin, ………, A. Sidorenkov et al. Modeling of MeV-scale particle detector based on organic liquid scintillator // Nuclear Instruments and Methods in Physics Research, Section A, 2020. V.951. 162920. DOI:10.1016/j.nima.2019.162920
1,265х30х0,125х1,5=7,1156
7. L. Kuzmichev, I. Astapov, P. Bezyazeekov,…….…, A. Sidorenkov et al. Cherenkov EAS arrays in the Tunka astrophysical center: from Tunka-133 to the TAIGA gamma and cosmic ray hybrid detector // Nuclear Instruments and Methods in Physics Research, Section A, 2020. V.952. 161830. DOI:10.1016/j.nima.2019.01.056
1,265х30х0,07х1,5=3,985
8. Astapov, P. Bezyazeekov, V. Boreyko………., A. Sidorenkov et al. Optimization of electromagnetic and hadronic extensive air showers identification using the muon detectors of the TAIGA experiment // Nuclear Instruments and Methods in Physics Research, Section A, 2020. V.952. 161730. DOI:10.1016/j.nima.2018.12.045
1,265х30х0,07х1,5=3,985
9. N.M. Budnev, I.I. Astapov, P.A. Bezyazeekov, …….., A.Yu. Sidorenkov et. al. TAIGA – A Hybrid array for high-energy gamma astronomy and cosmic-ray physics // Nuclear Instruments and Methods in Physics Research, Section A, 2020. V.958. 162113. DOI:10.1016/j.nima.2019.04.067
1,265х30х0,07х1,5=3,985
10. A. Abusleme, T.Adam, S.Ahmad, …, A. Sidorenkov et al. Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector // Nuclear Instruments and Methods in Physics Research, Section A, (2020) 164823. available on-line DOI:10.1016/j.nima.2020.164823
1,265x30x0,018=0,683
11. A. Abusleme, T. Adam, S. Ahmad, …, A. Sidorenkov et al. Feasibility and physics potential of detecting 8B solar neutrinos at JUNO // Chinese Physics C, Vol. 45, No. 1 available on-line
2,463x30x0,018=1,33
12. A. Abusleme, T. Adam, S. Ahmad, …, A. Sidorenkov et al. Calibration Strategy of the JUNO Experiment // arxiv:2011.06405
3x0,018=0,054
13. A. Abusleme, T. Adam, S. Ahmad, …, A. Sidorenkov et al. TAO Conceptual Design Report: A Precision Measurement of the Reactor Antineutrino Spectrum with Sub-percent Energy Resolution // arxiv:2005.08745
3x0,018=0,054
ПРНД=42,7406
Итоговый ПРНД=76,749