Кузнецов Михаил Юрьевич

Ч

350,3

22.01.2020

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Кузнецов Михаил Юрьевич
1987 г.р., к.ф.-м.н., мнс ЛГАРН ОЭФ


2018 год

Публикации:
1. 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(2):76, 2018.
ПРНД = 30*5.58*0.06 = 10,044

2. R. U. Abbasi et al. (Telescope Array collaboration), Evidence of Intermediate-Scale Energy Spectrum Anisotropy of Cosmic Rays E?10^19.2 eV with the Telescope Array Surface Detector, Astrophys. J., 862(2):91, 2018.
ПРНД = 30*5.58*0.06 = 10,044

3. 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(1):74, 2018.
ПРНД = 30*5.58*0.06 = 10,044

4. 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., D98(2):022002, 2018.
ПРНД = 30*4.368*0.06 = 7.86

5. M. Kachelriess, O. E. Kalashev, and M. Yu. Kuznetsov, Heavy decaying dark matter and IceCube high energy neutrinos, Phys. Rev., D98:083016, 2018.
ПРНД = 30*4.368/3 = 43.37

6. R. U. Abbasi et al. (Telescope Array collaboration), Testing a reported correlation between arrival directions of ultrahigh-energy cosmic rays and a flux pattern from nearby starburst galaxies using Telescope Array data, Astrophys. J. Lett., 867:L27, 2018.
ПРНД = 30*8.374*0.06 = 15.073

7. Grigory Rubtsov, Masaki Fukushima, Dmitri Ivanov, Mikhail Kuznetsov, Maxim Piskunov, Gordon Thomson, Sergey Troitsky, and Yana Zhezher, Telescope Array search for EeV photons and neutrinos. PoS, ICRC2017:551, 2018.
ПРНД = 8/8 = 1.0

8. Mikhail Kuznetsov, Maxim Piskunov, Grigory Rubtsov, Sergey Troitsky, and Yana Zhezher, Composition Studies with the Telescope Array surface detector. PoS, ICRC2017:543, 2018.
ПРНД = 8/5 = 1.6

9. Mikhail Kuznetsov, Maxim Piskunov, Grigory Rubtsov, Sergey Troitsky, and Yana Zhezher, Composition Studies with the Telescope Array Surface Detector. JPS Conf. Proc., 19:011035, 2018.
ПРНД = 8/5 = 1.6

Препринты:
1. 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.
ПРНД = 3*0.06=0.18


Доклады:
1. Устный доклад, Mikhail Kuznetsov, Search for ultra high energy photons with the Telescope Array experiment. XXth International Seminar on High Energy Physics Quarks-2108, Valday, Russia, 27 May - 2 June 2018.
https://q2018.inr.ac.ru/event/1/contributions/149/
ПРНД = 25.0

2. Устный доклад, Mikhail Kuznetsov, TeV blazars and the transparency of the Universe. TeV Particle Astrophysics conference (TeVPA 2018), Berlin, Germany, 27-31 August 2018.
https://indico.desy.de/indico/event/18204/session/16/contribution/144
ПРНД = 10.0 + 15.0/2 = 17.5

3. Стендовый доклад, Mikhail Kuznetsov, Search for ultra high energy photons in Telescope Array experiment. 20th International Symposium on Very High Energy Cosmic Ray Interactions (ISVHECRI-2018), Nagoya, Japan, 21-25 May 2018.
https://indico.cern.ch/event/639198/page/13503-poster-session
ПРНД = 10.0

4. Устный доклад, Yana Zhezher (speaker), Mikhail Kuznetsov, Maxim Piskunov, Grigory Rubtsov, Sergey Troitsky, Composition studies with the Telescope Array surface detector data, 26th Extended European Cosmic Ray Symposium and 35th Russian Cosmic Ray Conference (E+CRS 2018), Barnaul - Belokurikha, Russia, July 6 - 10.
https://ecrs18.asu.ru/event/1/contributions/228/
ПРНД = 15/5 = 3.0

Итого за 2018: ПРНД = 156,315


2019 год

Публикации:
1. R. U. Abbasi et al. (Telescope Array collaboration), Mass composition of ultrahigh-energy cosmic rays with the Telescope Array Surface Detector data, Phys. Rev. D99, 022002 (2019).
ПРНД = 30*4.368*0.06 = 7.86

2. 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)
ПРНД = 30*3,247*0.06 = 5,845

3. Oleg E. Kalashev, Mikhail Yu. Kuznetsov, Yana V. Zhezher, Dark matter component decaying after recombination: constraints from diffuse gamma-ray and neutrino flux measurements, JCAP 1910, 039 (2019)
ПРНД = 30*5.524/3 = 55.24

4. Mikhail Kuznetsov, Maxim Piskunov, Grigory Rubtsov, Sergey Troitsky and Yana Zhezher, Composition Studies With the Telescope Array Surface Detector, Particle Physics at the Silver Jubilee of Lomonosov Conferences, 396 (2019)
ПРНД = 8/5 = 1.6

5. M. Kuznetsov, O. Kalashev, G. Rubtsov, Telescope Array Search for EeV Photons, Proceedings of Science, 358, 326 (2019)
ПРНД = 8/3 = 2.67

6. O. Kalashev, M. Kuznetsov, Study Cosmic Ray Mass Composition using Deep Learning in Telescope Array Surface Array Detector, Proceedings of Science, 358, 304 (2019)
ПРНД = 8/2 = 4


Доклады:
1. М.Ю. Кузнецов, устный доклад, "Telescope Array Search for EeV Photons", 36th International Cosmic Ray Conference (ICRC-2019), 24 июля - 1 августа 2019, Мэдисон, США.
https://www.icrc2019.org/presentations.html
ПРНД = 25.0

2. О.Е. Калашев, М.Ю. Кузнецов, постерный доклад, "Study Cosmic Ray Mass Composition using Deep Learning in Telescope Array Surface Array Detector", 36th International Cosmic Ray Conference (ICRC-2019), 24 июля - 1 августа 2019, Мэдисон, США.
ПРНД = 5.0

3. Я.В. Жежер (докладчик), М.Ю. Кузнецов, Г.И. Рубцов, О.Е. Калашев, устный доклад, "Telescope Array search for EeV photons", TAUP, 8-14 сенятбря 2019, Тояма, Япония.
http://www-kam2.icrr.u-tokyo.ac.jp/indico/event/3/session/39/contribution/210
ПРНД = 15/4 = 3.75

4. М.Ю. Кузнецов, устный доклад, "Highlights from Telescope Array", 10th CosmoParticle meeting (COSPA): Cosmic Rays, 4 октября 2019, Брюссель, Бельгия.
https://indico.iihe.ac.be/event/1312/contributions/2260/
ПРНД = 25.0

5. М.Ю. Кузнецов (докладчик), Г.И. Рубцов, О.Е. Калашев, устный доклад, "Telescope Array Search for EeV Photons", Cosmic Ray Anisotropy Workshop (CRA2019), 7-11 октября 2019, Л'Акуила, Италия.
https://indico.gssi.it/event/45/contributions/231/
ПРНД = 10.0 + 15/3 = 15.0

6. М.Ю. Кузнецов, постерный доклад, "Search for ultra-high energy photons with Telescope Array", Joint ECFA-NuPECC-ApPEC Seminar (JENAS-2019), 14-16 октября 2019, Орсэ, Франция.
https://indico.lal.in2p3.fr/event/5418/contributions/18757/
ПРНД = 10.0

7. М.Ю. Кузнецов, устный доклад, "Multimessengers and fundamental physics with ultra-high energy cosmic rays", Winter workshop: multimessengers, compact objects and fundamental physics, 4-7 декабря 2019, Прага, Чехия
https://multimessengers-prague.fzu.cz/
ПРНД = 25.0

Преподавание:
Проведение семинаров по курсу «Методы машинного обучения для обработки данных» на кафедре Физики частиц и космологии Физического факультета МГУ. Весенний семестр.
ПРНД = 8.0

Итого за 2 года: ПРНД = 156,315 + 193,965 = 350,28