Рейтинг (ПРНД) сотрудников ИЯИ РАН сезона 2022 [278]

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ФИОГРПРНДк-т умно
жения		датадолжн
Воронин Владимир ВладимировичЧ318,31,5а18.01.2022А
Воронин Дмитрий Михайлович
Аспирант, стажер-исследователь, ОЭФ

2020
Статьи
1. V.B. Petkov, A. N. Fazliakhmetov, A.M. Gangapshev, …, D.M. Voronin et al. Baksan large volume scintillation telescope: a current status // Journal of Physics: Conference Series, 1468, 012244 (2020).
0,547x30x0,2x2=6,564
2. N. Budnev, I. Astapov, P. Bezyazeekov, …, D. Voronin et al. TAIGA – an advanced hybrid detector complex for astroparticle physics and high energy gamma-ray astronomy in the Tunka valley // Journal of Instrumentation, V.15, C09031 (2020).
1,415x30x0,07x1,5=4,45725
3. D. Chernov, I. Astapov, P. Bezyazeekov, …, D. Voronin et al. Development of a novel wide-angle gamma-ray imaging air Cherenkov telescope with SiPM-based camera for the TAIGA hybrid installation // Journal of Instrumentation, V.15, C09062 (2020).
1,415x30x0,07x1,5=4,45725
4. A. Ivanova, N. Budnev, A. Chiavassa, …, D. Voronin et al. Design features and data acquisition system of the TAIGA-Muon scintillation array // Journal of Instrumentation, V.15, C06057 (2020).
1,415x30x0,07x1,5=4,45725
5. Astapov, P. Bezyazeekov, A. Borodin, ………., D. Voronin et al. An approach for identification of ultrahigh energy extensive air showers with scintillation detectors of TAIGA experiment // Journal of Instrumentation, V.15. N.9. C09037 (2020).
1,415х30х0,07х1,5=4,45725
6. Yu.M. Malyshkin, ………, D.M. Voronin 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.
1,455х30х0,2х2=17,46
7. L. Kuzmichev, I. Astapov, P. Bezyazeekov,…….…, D. Voronin 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.
1,455х30х0,07х1,5=4,58325
8. Astapov, P. Bezyazeekov, V. Boreyko………., D. Voronin 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.
1,455х30х0,07х1,5=4,58325
9. N.M. Budnev, I.I. Astapov, P.A. Bezyazeekov, …….., D.M. Voronin 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.
1,455х30х0,07х1,5=4,58325
10. N.M. Budnev, I.I. Astapov, P.A. Bezyazeekov, ..., D.M. Voronin et. al. Status of the TAIGA Experiment: From Cosmic-Ray Physics to Gamma Astronomy in Tunka Valley // Physics of Atomic Nuclei, V.83, 905–915 (2020).
1,13x60x0,07x1,5=7,119
11. L. Kuzmichev, I. Astapov, P. Bezyazeekov, ..., D. Voronin et. al. Experimental Complex
TAIGA // Physics of Atomic Nuclei, V.83, 1375–1382 (2020).
1,13x60x0,07x1,5=7,119
12. A. Ivanova, N. Budnev, A. Chiavassa …, D. Voronin et al. Possibilities of the Tunka-Grande and TAIGA-Muon scintillation arrays with the TAIGA-HiSCORE Cherenkov array joint operation in the research of cosmic and gamma rays // Journal of Physics: Conference Series, V.1690, 012014 (2020).
0,547x30x0,007x1,5=1,723
13. R. Monkhoev, I. Astapov, P. Bezyazeekov, …, D. Voronin et al. Tunka-Grande and TAIGA-Muon scintillation arrays: status and prospects // Journal of Physics: Conference Series, V.1697, 012026 (2020).
0,547x30x0,007x1,5=1,723
14. M. Ternovoy, I. Kotovschikov, N. Budnev, …, D. Voronin et al. Simulation of the Tunka-Grande, TAIGA-Muon and TAIGA-HiSCORE arrays for a search of astrophysical gamma quanta with energy above 100 TeV // Journal of Physics: Conference Series, V.1847, 012047 (2020).
0,547x30x0,007x1,5=1,723
15. E.B. Postnikov, I.I. Astapov, P.A. Bezyazeekov, …, D.M. Voronin et al. First detection of gamma-ray sources at TeV energies with the first imaging air Cherenkov telescope of the TAIGA installation // Journal of Physics: Conference Series, V.1690, 012023 (2020).
0,547x30x0,07x1,5=1,723
ПРНД=76,73275
2021
Статьи
1. Ushakov N.A., Fazliakhmetov A.N., Gangapshev A.M. …, D.M. Voronin et al. New large-volume detector at the Baksan Neutrino Observatory: Detector prototype // Journal of Physics: Conference Series, V.1787, 012037 (2021).
0,547x30x0,2x2=6,564
2. C. Cao, J. Xu, M. He, …, D.M. Voronin et al. Mass production and characterization of 3-inch PMTs for the JUNO experiment // Nuclear Instruments and Methods in Physics Research, Section A, V.1005, 165347 (2021).
1,455х30х0,07=3,0555
3. A. Abeln, K. Altenmuller, S. Arguedas Cuendis, …, D. Voronin et al. Conceptual design of BabyIAXO, the intermediate stage towards the International Axion Observatory // Journal of High Energy Physics, V.2021, 137 (2021).
5,810х0,047х30=8,192
4. V.V. Prosin, I.I. Astapov, P.A. Bezyazeekov, …, D.M. Voronin et al. Depth of the Maximum of Extensive Air Showers (EASes) and the Mean Mass Composition of Primary Cosmic Rays in the 1015–1018 eV Range of Energies, According to Data from the TUNKA-133 and TAIGA-HiSCORE Arrays for Detecting EAS Cherenkov Light in the Tunkinsk Valley // Bulletin of the Russian Academy of Sciences: Physics, V.85, 395–397 (2021).
0,547x60x0,07x1,5=3,4461
5. L.G. Sveshnikova, I.I. Astapov, P.A. Bezyazeekov, …, D.M. Voronin et al. Detecting Gamma Rays with Energies Greater than 3–4 ТeV from the Crab Nebula and Blazar Markarian 421 by Imaging Atmospheric Cherenkov Telescopes in the TAIGA Experiment // Bulletin of the Russian Academy of Sciences: Physics, V.85, 398–401 (2021).
0,547x60x0,07x1,5=3,4461
6. D.A. Podgrudkov, E.A. Bonvech, I.V. Vaiman, …, D.M. Voronin et al. First Results from Operating a Prototype Wide-Angle Telescope for the TAIGA Installation // Bulletin of the Russian Academy of Sciences: Physics, V.85, 408–411 (2021).
0,547x60x0,07x1,5=3,4461
7. Angel Abusleme, Thomas Adam, Shakeel Ahmad, …, Dmitriy Voronin et al. JUNO sensitivity to low energy atmospheric neutrino spectra // The European Physical Journal C, V.81, 887 (2021).
4,59x30x0,018=2,4786
8. Angel Abusleme, Thomas Adam, Shakeel Ahmad, …, Dmitriy Voronin et al. The design and sensitivity of JUNO’s scintillator radiopurity pre-detector OSIRIS // The European Physical Journal C, V.81, 973 (2021).
4,59x30x0,018=2,4786
9. Angel Abusleme, Thomas Adam, Shakeel Ahmad, …, Dmitriy Voronin et al. Radioactivity control strategy for the JUNO detector // Journal of High Energy Physics, V.2021, 102 (2021).
5,81x30x0,018=3,1374
10. A. Abeln, K. Altenmuller, S. Arguedas Cuendis, … D. Voronin et al. Axion search with BabyIAXO in view of IAXO // PoS (ICHEP2020) 390
8х0,047=0,376
11. Ushakov N.A., Fazliakhmetov A.N., Gangapshev A.M. …, Voronin D.M. et al. A new Baksan Large Neutrino Telescope: the project’s status // PoS (ICRC2021) 1188
8x0,2x2=3,2
12. Ushakov N.A., Fazliakhmetov A.N., Gangapshev A.M. …, Voronin D.M. et al. Evaluation of large area photomultipliers for use in a new Baksan Large Neutrino Telescope project // PoS (ICRC2021) 1101
8x0,3x2=4,8
13. D. Voronin, A. Fazliakhmetov, et al. Development of calibration system for a project of a new Baksan Large Neutrino Telescope // PoS (ICRC2021) 1100
8x0,3x2=4,8
14. D. Voronin, A. Fazliakhmetov, et al. Calibration system of EAS Cherenkov arrays using commercial drone helicopter // PoS (ICRC2021) 268
8x0,3x2=4,8
15. A.N. Fazliakhmetov, V.N. Gavrin, …, Voronin D.M. et al.Light concentrators for large-volume detector at the Baksan Neutrino Observatory // PoS (ICRC2021) 1097
8x0,2x2=3,2
16. A. Abusleme, T. Adam, S. Ahmad, …, D. Voronin, et al. Feasibility and physics potential of detecting 8B solar neutrinos at JUNO // Chinese Physics C, 2021, Vol. 45, No. 2 P.023004
2,145x30x0,018=1,158
17. R.Monkhoev, M. Ternovoy, I. Astapov, ………….. D. Voronin, et al. JEANT4 simulation of Tunka-Grande experiment // J. Phys.: Conf. Ser. 2301(2021)012001.
0,547х0,07х30х1,5=1,723
18. A.L. Ivanova, R. Monkhoev, I. Astapov, …….., D. Voronin, et al. Tunka-Grande array for high energy gamma-ray astronomy and cosmic-ray physics: preliminary results // PoS(ICRC2021)361.
8х0,07х1,5=0,84
19. D.P. Zhurov, O.A. Gress, D.S. Lukyanov, ………, D. Voronin, et al. TAIGA-IACT pointing control and monitory software status // PoS(ICRC2021)690.
8х0,07х1,5=0,84
20. A.A. Grinyuk, E.B. Postnikov, P.A. Volchugov, ………., D. Voronin, et al. Stereoscopic and monoscopic operation of the five IACTs in the TAIGA experiment // PoS(ICRC2021)713.
8х0,07х1,5=0,84
21. N. Budnev, L. Kuzmichev, R. Mirzoyan, ………, D. Voronin, et al. TAIGA – an advanced hybrid detector complex for astroparticle physics, cosmic ray physics and gamma-ray astronomy // PoS(ICRC2021)731.
8х0,07х1,5=0,84
22. M. Blank, M. Tluczycont, A. Kuotb, A.K. Awad, ………., D. Voronin, et al. Development of hybrid reconstruction techniques for TAIGA // PoS(ICRC2021)757.
8х0,07х1,5=0,84
23. A.D. Panov, I.I. Astapov, A.K. Awad, ………., D. Voronin, et al. Search for nanosecond-fast optical transients with TAIGA-HiSCORE array // PoS(ICRC2021)951.
8х0,07х1,5=0,84
24. A. Abusleme, T. Adam, S. Ahmad, ………., D. Voronin, et al. Juno Physics Prospects // PoS(ICRC2021)1194
8х0,018=0,144
65,4854

Доклады
1. Воронин Д.М. XXVIII Международная конференция студентов, аспирантов и молодых учёных «Ломоносов» — 2021, устный доклад «Применение управляемых летательных аппаратов для калибровок установок, регистрирующих черенковский свет от ШАЛ», https://lomonosov-msu.ru/file/event/7000/request/777332/ersn16749/invite.pdf
25
2. Dmitry Voronin 37th International Cosmic Ray Conference — 2021, постерный доклад «Development of calibration system for a project of a new Baksan Large Neutrino Telescope» https://icrc2021-venue.desy.de/video/Development-of-calibration-system-for-a-project-of-a-new-Baksan-Large-Neutrino-Telescope/5dca493fc77cc722bf490ec7daf35106
10
3. Dmitry Voronin 37th International Cosmic Ray Conference — 2021, постерный доклад «Calibration system of EAS Cherenkov arrays using commercial drone helicopter» https://icrc2021-venue.desy.de/video/Calibration-system-of-EAS-Cherenkov-arrays-using-commercial-drone-helicopter/845eb494f1738c60c60a53d6ec67c3da
10
4. Воронин Д.М. 64-я Всероссийская научная конференция МФТИ — 2021, устный доклад «Применение управляемых летательных аппаратов для калибровок установок, регистрирующих черенковский свет от ШАЛ», https://drive.google.com/drive/folders/1loJnL-S2IDeHv_UgYb9SjEA0OlsMqvQu
25
ПРНД=135,4854
Итоговый ПРНД=(76,73275+135,4854)x1,5 = 318,33