Рейтинг (ПРНД) сотруднков ИЯИ РАН сезона 23 [309]

по группам: Теоретическая физика, Ядерная физика,Нейтринная физика и КЛ, физика Частиц, Ускорительная физика,Междисциплинарные исследования
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ФИОГРПРНДПРНД
рук		к-т умно
жения		датафайл
расчёта		должн
Аврорин Александр ДмитриевичН282,010.01.2023С
АВРОРИН Александр Дмитриевич, 17/02/1990, к.ф.-м.н., н.с. ЛНАВЭ,
Тема «Глубоководное детектирование мюонов и нейтрино на оз.Байкал», 01.2.00 305509, 15 Ядерная физика

ПРНД за 2021-2022 гг

Публикации:

// 2022

1. Baikal-GVD Collaboration (A.V. Avrorin et al.), Deep-Underwater Cherenkov Detector in Lake Baikal, J.Exp.Theor.Phys. 134 (2022) 4, 399-416, Zh.Eksp.Teor.Fiz. 161 (2022) 4, 476-796; DOI: 10.1134/S1063776122040148

ПРНД= 60*0.10*2*1.111= 13.332

2. Baikal-GVD Collaboration (V.A. Allakhverdyan et al.), Technique for suppression of background cascades produced by atmospheric muon bundles in the Baikal-GVD, JINST 17 (2022) 02, C02013; DOI: 10.1088/1748-0221/17/02/C02013.

ПРНД= 30*0.10*2*1.415= 8.49
3. Baikal-GVD Collaboration (V.A. Allakhverdyan et al.), High-energy neutrino-induced cascade from the direction of the flaring radio blazar TXS 0506+056 observed by the Baikal Gigaton Volume Detector in 2021, e-Print:2210.01650.
ПРНД= 3*0.10*2= 0.6

4. Baikal-GVD Collaboration (V.A. Allakhverdyan et al.), Diffuse neutrino flux
measurements with the Baikal-GVD neutrino telescope, e-Print:2211.09447.

ПРНД= 3*0.14*2= 0.84

5. Baikal-GVD Collaboration (A.V. Avrorin et al.), Recent results from the Baikal
GVD neutrino telescope, Proc. of 41st International Conf. on High Energy physics,
PoS-ICHEP2022-083, DOI: 10.22323/1.414.0083, https://pos.sissa.it/414/083/

ПРНД= 8*0.14*2= 2.24

6. Baikal-GVD Collaboration (V.A. Allakhverdyan et a., Increasing the sensitivity of
the Baikal-GVD neutrino telescope by using external strings of optical modules,
e-Print:2211.14223.

ПРНД= 3*0.14*2= 0.84


// 2021

1. Baikal-GVD Collaboration, A.D. Avrorin et al., High-Energy Neutrino Follow-up at the Baikal-GVD Neutrino Telescope, Astron.Lett. 47 (2021) 2, 94-104, Astron.Zh. 47 (2021) 2, 114-124, DOI: 10.1134/S1063773721020018.

ПРНД= 60*0.10*2*1.194= 14.328

2. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Deep-Water Neutrino Telescope in Lake Baikal, Physics of Atomic Nuclei, 2021, Vol84, No 9, pp 1-10.
ISSN 1063-7788.

ПРНД= 60*0.10*2*0.420= 5.04

3. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Luminescence of Baikal water as a dynamic background of the Baikal-GVD Neutrino Telescope, JINST 16 (2021) 11, C11011, DOI: 10.1088/1748-0221/16/11/C11011.

ПРНД= 30*0.10*2*1.415= 8.49

4. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Method and portable bench for tests of the laser optical calibration system components for the Baikal-GVD underwater neutrino Cherenkov telescope, JINST 16 (2021) 12, C12011, DOI: 10.1088/1748-0221/16/12/C12011.

ПРНД= 30*0.10*2*1.415= 8.49

5. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Follow-up of the IceCube alerts with the Baikal-GVD telescope, JINST 16 (2021) 11, C11008,
DOI: 10.1088/1748-0221/16/11/C11008.

ПРНД= 30*0.10*2*1.415= 8.49

6. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Proposal for fiber-optic data acquisition system for Baikal-GVD, JINST 16 (2021) 11, C11006,
DOI: 10.1088/1748-0221/16/11/C11006.

ПРНД= 30*0.10*2*1.415= 8.49

7. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Time synchronization of Baikal-GVD clusters, PoS ICRC2021 (2021) 1067, JINST 16 (2021) 09, C09003,
DOI: 10.1088/1748-0221/16/09/C09003.

ПРНД= 30*0.10*2*1.415= 8.49

8. Baikal-GVD Collaboration, V.A. Allakhverdyan et al.,
Measuring muon tracks in Baikal-GVD using a fast reconstruction algorithm,
Eur.Phys.J.C 81 (2021) 11, 1025, DOI: 10.1140/epjc/s10052-021-09825-y

ПРНД= 30*0.10*2*4.590= 27.54
9. Baikal-GVD Collaboration, A.D.Avrorin et al., High-energy neutrino astronomy and the Baikal-GVD neutrino telescope, Phys.At.Nucl. 84 (2021) 4, 513-518, DOI: 10.1134/S1063778821040062.
ПРНД= 60*0.10*2*0.410= 4.92

// публикации по докладам-ICRC2021
1. Baikal-GVD Collaboration, V.A. Allakhverdyan et al.,
Neutrino Telescope in Lake Baikal: Present and Nearest Future, PoS ICRC2021 (2021) 002, DOI: 10.22323/1.395.0002, 10.22323/1.395.002 (publication).

ПРНД= 8*0.10 *2= 1.6

2. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Performance of the muon track reconstruction with the Baikal-GVD neutrino telescope, PoS ICRC2021 (2021), 1080, DOI: 10.22323/1.395.1080.

ПРНД= 8*0.10 *2= 1.6

3. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Observations of track-like neutrino events with Baikal-GVD, PoS ICRC2021 (2021) 1177,
DOI: 10.22323/1.395.1177.

ПРНД= 8*0.10 *2= 1.6

4. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., The Baikal-GVD neutrino telescope: search for high-energy cascades, PoS ICRC2021 (2021) 1144,
DOI: 10.22323/1.395.1144.

ПРНД= 8*0.10 *2= 1.6

5. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Positioning system for Baikal-GVD, PoS ICRC2021 (2021) 1083, DOI: 10.22323/1.395.1083.

ПРНД= 8*0.10 *2= 1.6

6. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., An efficient hit finding algorithm for Baikal-GVD muon reconstruction, PoS ICRC2021 (2021) 1063,
DOI: 10.22323/1.395.1063.

ПРНД= 8*0.10 *2= 1.6
7. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Development of the Double Cascade Reconstruction Techniques in the Baikal-GVD Neutrino Telescope, PoS ICRC2021 (2021) 1167, DOI: 10.22323/1.395.1167.

ПРНД= 8*0.10 *2= 1.6

8. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Methods for the suppression of background cascades produced along atmospheric muon tracks in the Baikal-GVD, PoS ICRC2021 (2021) 1114, DOI: 10.22323/1.395.1114.

ПРНД= 8*0.10 *2= 1.6

9. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Data Quality Monitoring system of the Baikal-GVD experiment, PoS ICRC2021 (2021) 1094,
DOI: 10.22323/1.395.1094.

ПРНД= 8*0.10 *2= 1.6

10. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Monitoring of optical properties of deep lake water, PoS ICRC2021 (2021) 1034,
DOI: 10.22323/1.395.1034.

ПРНД= 8*0.10 *2= 1.6

11. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., The Baikal-GVD neutrino telescope as an instrument for studying Baikal water luminescence,
PoS ICRC2021 (2021) 1113, DOI: 10.22323/1.395.1113.

ПРНД= 8*0.10 *2= 1.6

12. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Automatic data processing for Baikal-GVD neutrino observatory, PoS ICRC2021 (2021) 1040,
DOI: 10.22323/1.395.1040.
ПРНД= 8*0.10 *2= 1.6

13. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Time synchronization of Baikal-GVD clusters, PoS ICRC2021 (2021) 1067, DOI: 10.22323/1.395.1067.

ПРНД= 8*0.10 *2= 1.6

14. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Experimental string with fiber optic data acquisition for Baikal-GVD, PoS ICRC2021 (2021) 1066,
DOI: 10.22323/1.395.1066.

ПРНД= 8*0.10 *2= 1.6

15. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Multi-messenger and real-time astrophysics with the Baikal-GVD telescope, PoS ICRC2021 (2021) 946,
DOI: 10.22323/1.395.0946.

ПРНД= 8*0.10 *2= 1.6

16. Baikal-GVD Collaboration and ANTARES Collaboration, ANTARES offline study of three alerts after Baikal-GVD follow-up found coincident cascade neutrino events, S.A.Garre, F.Versari, A.D.Avrorin, Zh.-A.M.Dzhilkibaev, M.D.Shelepov, O.V.Suvorova; PoS(ICRC2021)1121; DOI: https://doi.org/10.22323/1.395.1121

ПРНД= 8*0.047= 0.376

-------------------------------------------------------

Итого (статьи): 144.996

Доклады:

// доклады-2022

1)   D. Zaborov, Baikal-GVD: Status and First Results, Contribution to
EPIPHANY Conference on Recent Advances in Astroparticle Physics, Cracow, https://indico.cern.ch/event/1034990/sessions/423462/#20220111
ПРНД= 15*0.14= 2.1

2)   O. Suvorova, DM searches with GVD, Contribution to the 3rd GNN
Workshop on Indirect Dark Matter Searches with Neutrino Telescops, Dark Ghost, Granada, https://indico.cern.ch/event/1075227/
ПРНД= 15*0.14= 2.1

3)   Yu. Malyshkin, Baikal-GVD Neutrino Telescope, Contribution to the 15th
Pisa Meeting on Advanced Detectors, https://www.pi.infn.it/pm/
ПРНД= 10*0.14= 1.

4)   Zh.-A.M. Dzhilkibaev, Fiftieth Anniversary of Neutrino Conferences, Contribution to the 50th Neutrino, 2022, Seoul, Status of the Baikal-GVD and selected results" June 23, 2022, doi:10.5281/zenodo.66962
ПРНД= 15*0.14= 2.1

5)   O. Suvorova, Follow-up of alerts in search for multi-messenger sources with
Baikal-GVD neutrino telescope, poster, Contribution to the Neutrino 2022, Seoul,
https://zenodo.org/search?page=1&size=20&q=Suvorova
ПРНД= 10*0.14= 1.4

6)   G. Safronov, Baikal-GVD: Recent results with track-like events, poster,
Contribution to the Neutrino 2022, Seoul,
https://zenodo.org/record/6785358#.Y3jCoIJBwWY
ПРНД= 10*0.14= 1.4

7)   V. Dik, The Baikal-GVD telescope follow-up analysis of the IceCube
neutrino alerts, Contribution to the 27 European Cosmic Ray Symposium, ECRS 2022, Nijmegen, https://indico.nikhef.nl/event/2110/contributions/13855/
ПРНД= 15*0.14= 2.1

8)   Z. Bardacova, Selection techniques of neutrino-induced cascades in the Baikal-
GVD neutrino telescope, Contribution to ECRS 2022, Nijmegen,
https://indico.nikhef.nl/event/2110/contributions/13861/
ПРНД= 15*0.14= 2.1

9)   E. Eckerova, Development of the Double Cascade Reconstruction Technique in the
Baikal-GVD Neutrino Telescope, poster, Contribution to ECRS 2022, Nijmegen, https://indico.nikhef.nl/event/2110/contributions/13863/
ПРНД= 10*0.14= 1.4

10) D.Seitova, Baikal-GVD Neutrino Telescope: Current Status and Future Perspectives, Contribution to the 14th International School on Neutrino Physics and Astrophysics, Dubna; https://dlnp.jinr.ru/en/news/dlnp-news/1973-14th-international-school-on-neutrino-physics-and-astrophysics
ПРНД= 15*0.14= 2.1

11) Yu. Malyshkin, Baikal-GVD Neutrino Telescope, Contribution to the12th
Cosmic Ray International Seminar, CRIS 2022, Naples,
https://agenda.infn.it/event/29965
ПРНД= 15*0.14= 2.1

12) Ж.-А.М.Джилкибаев, Байкальский глубоководный нейтринный эксперимент: статус и перспективы, труды конференции ВККЛ 2022, 37 Всероссийская конференция по космическим лучам Москва, https://events.sinp.msu.ru/event/10/
ПРНД= 15*0.14= 2.1

13) В.Я. Дик, О.В. Суворова, Отслеживание нейтринных оповещений телескопа IceCube глубоководным телескопом Baikal-GVD, труды ВККЛ 2022, Москва, https://events.sinp.msu.ru/event/10/

ПРНД= 15*0.14= 2.1

14)   Г.Б. Сафронов, Baikal-GVD muon track results, труды ВККЛ 2022, Москва,
https://events.sinp.msu.ru/event/10/
ПРНД= 15*0.14= 2.1

15)   D. Zaborov, Recent results from the Baikal-GVD neutrino telescope,
Contribution to the XLI International Conference on High Energy Physics, ICHEP 2022, Bologna, https://agenda.infn.it/event/28874/contributions/170178/

ПРНД= 15*0.14= 2.1

16) D. Zaborov, Opening a new chapter in neutrino astronomy with Baikal--GVD, Contribution to The XXVI International Scientific Conference of Young Scientists and Specialists AYSS-22, Dubna, https://indico.jinr.ru/event/3154/contributions/18042/

ПРНД= 15*0.14= 2.1

17) Д.Заборов, Нейтринный телескоп Baikal-GVD - первые результаты и ближайшие планы, Черенковские Чтения, 19 апреля 2022, Москва, https://x4u.lebedev.ru/che2022/program_ru-RU.html

ПРНД= 15*0.14= 2.1

18) Zh.-A.M. Dzhilkibaev, Baikal-GVD 2022, Contribution to Neutrinos in
the Multi-Messenger Era conference, November 29th—December 2nd, 2022, Louvain-la-Neuve, https://agenda.irmp.ucl.ac.be/event/4681/timetable/#20221129

ПРНД= 15*0.14= 2.1

19) Г.Б. Сафронов, High energy astronomy with the Baikal-GVD neutrino telescope, труды ICPPA 2022, The 6th International Conference on Particle Physics and Astrophysics, Москва, Nov 29 –Dec 02, 2022, https://indico.particle.mephi.ru/event/275/timetable/#20221201.detailed

ПРНД= 15*0.14= 2.1

20) Г.Б. Сафронов, лекция на фестивале науки future.doc: “Baikal-GVD: глубоководный нейтринный телескоп в озере Байкал”
https://futuredocfest.timepad.ru/event/1972373/

ПРНД= 15*0.14= 2.1

21) Zh.-A.M. Dzhilkibaev, Статус нейтринного эксперимента Baikal-GVD , Всероссийская конференция Астрофизика высоких энергий сегодня и завтра, Декабрь 26, 2022, Москва, ИКИ. heaconf.cosmos.ru/heaconf/hea/2022/hea/talk/968/

ПРНД= 15*0.14= 2.1

// доклады-VLVnT2021

1. Present status of the Baikal-GVD neutrino telescope,
https://indico.ific.uv.es/event/3965/contributions/14895/.
ПРНД= 15*0.10= 1.5

2. Time synchronization system of the Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14767/.
ПРНД= 15*0.10= 1.5

3. Multi-messenger studies with the Baikal-GVD telescope,
https://indico.ific.uv.es/event/3965/contributions/14886/.
ПРНД= 15*0.10= 1.5

4. Muon track reconstruction algorithms for Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14773/.
ПРНД= 15*0.10= 1.5

5. An efficient hit selection algorithm for muon reconstruction in Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14765/.
ПРНД= 10+15*0.10= 11.5

6. Monitoring pipeline for Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14766/.
ПРНД= 10+15*0.10= 11.5

7. The Baikal-GVD neutrino telescope: search for high-energy cascade,
https://indico.ific.uv.es/event/3965/contributions/14872/.
ПРНД= 15*0.10= 1.5

8. Proposal for fiber optic data acquisition system for Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14932/.
ПРНД= 15*0.10= 1.5

9. Observations of muon neutrinos with Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14869/.
ПРНД= 15*0.10= 1.5

10. Follow up of the IceCube alerts with the Baikal-GVD telescope,
https://indico.ific.uv.es/event/3965/contributions/14885/.
ПРНД= 15*0.10= 1.5

11. Data Quality Monitoring system of the Baikal-GVD experiment,
https://indico.ific.uv.es/event/3965/contributions/14761/.
ПРНД= 15*0.10= 1.5

12. Luminescence of Baikal Water as a Dynamic Background of the Baikal-GVD Neutrino Telescope, https://indico.ific.uv.es/event/3965/contributions/14897/.
ПРНД= 15*0.10= 1.5

13. Suppression techniques for background cascades produced by atmospheric muon bundles, https://indico.ific.uv.es/event/3965/contributions/14777/.
ПРНД= 15*0.10= 1.5

14. Method and portable bench for tests of the laser optical calibration system components for the Baikal-GVD underwater neutrino Cherenkov telescope,
https://indico.ific.uv.es/event/3965/contributions/14934/.
ПРНД= 15*0.10= 1.5

15. Baikal GVD data's transfer and organization,
https://indico.ific.uv.es/event/3965/contributions/14763/.
ПРНД= 15*0.10= 1.5

16. Laser events analysis in Baikal-GVD,
https://indico.ific.uv.es/event/3965/contributions/14927/.
ПРНД= 15*0.10= 1.5

17. Monitoring of optical properties of the deep water of Lake Baikal,
https://indico.ific.uv.es/event/3965/contributions/14786/.
ПРНД= 15*0.10= 1.5

18. Automatic data processing for Baikal-GVD neutrino observatory,
https://indico.ific.uv.es/event/3965/contributions/14780/.
ПРНД= 15*0.10= 1.5

// talk доклады-ICRC2021
https://icrc2021-venue.desy.de/category/scientific-contributions/30

1. Baikal-GVD Collaboration, V.A. Allakhverdyan et al.,
Neutrino Telescope in Lake Baikal: Present and Nearest Future.
https://icrc2021-venue.desy.de/channel/video/Highlight-Neutrino-Telescope-in-Lake-Baikal-Present-and-Nearest-Future/1a7e85e7bbc3965c7d318cca369c6e77/47

ПРНД= 15*0.10= 1.5

2. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., The Baikal-GVD neutrino telescope: search for high-energy cascades.

ПРНД= 15*0.10= 1.5

3. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Multi-messenger and real-time astrophysics with the Baikal-GVD telescope.

ПРНД= 15*0.10= 1.5

4. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Positioning system for Baikal-GVD.

ПРНД= 10+15*0.10= 11.5

5. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Observations of track-like neutrino events with Baikal-GVD.

ПРНД= 15*0.10= 1.5

6. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Method and portable bench for tests of the laser optical calibration system components for the Baikal-GVD underwater neutrino Cherenkov telescope.

ПРНД= 15*0.10= 1.5
7. S.A.Garre, F.Versari, A.D.Avrorin, Zh.-A.M.Dzhilkibaev, M.D.Shelepov, O.V.Suvorova for ANTARES and Baikal-GVD Collaborations, ''ANTARES - Baikal GVD Alerts Analysis’’.
ПРНД= 15*0.047= 0.705

// poster доклады-ICRC2021
https://icrc2021-venue.desy.de/pages/view/id/29?

1. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Performance of the muon track reconstruction with the Baikal-GVD neutrino telescope.
ПРНД= 10*0.10= 1.0

2. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., An efficient hit finding algorithm for Baikal-GVD muon reconstruction.
ПРНД= 10*0.10= 1.0


3. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Development of the Double Cascade Reconstruction Techniques in the Baikal-GVD Neutrino Telescope.
ПРНД= 10*0.10= 1.0

4. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Methods for the suppression of background cascades produced along atmospheric muon tracks in the Baikal-GVD.
ПРНД= 10*0.10= 1.0

5. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Data Quality Monitoring system of the Baikal-GVD experiment.
ПРНД= 10*0.10= 1.0

6. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Monitoring of optical properties of deep lake water.
ПРНД= 10*0.10= 1.0

7. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., The Baikal-GVD neutrino telescope as an instrument for studying Baikal water luminescence.
ПРНД= 10*0.10= 1.0

8. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Automatic data processing for Baikal-GVD neutrino observatory.
ПРНД= 10*0.1= 1.0

9. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Time synchronization of Baikal-GVD clusters.
ПРНД= 10*0.10= 1.0

10. Baikal-GVD Collaboration, V.A. Allakhverdyan et al., Experimental string with fiber optic data acquisition for Baikal-GVD.
ПРНД= 10*0.10= 1.0


// другие доклады-2021

1. Научная сессия ОФН РАН "Астрофизика частиц - в космосе и геосферах. К 100-летию со дня рождения А.Е. Чудакова", Г.В. Домогацкий, «Нейтринный телескоп Baikal-GVD - состояние и планы», Москва, ИЯИ, 16 июня 2021, www.inr.ru;
ПРНД= 15*0.10= 1.5
   
2. XIV Черенковские чтения: Новые методы в экспериментальной и ядерной физике, В.М.Айнутдинов, "Baikal-GVD neutrino telescope", Москва, ФИАН, 20 апреля 2021, https://x4u.lebedev.ru/che2021/program_ru-RU.html;
   
ПРНД= 15*0.10= 1.5

3. GVD - Neutrino Telescope in Lake Baikal, L.Fajt et al., Contribution to The European Physical Society Conference on High Energy Physics (EPS-HEP), July 26-30, 2021; https://www.eps-hep2021.eu/
   ПРНД= 15*0.10= 1.5

4. The progress in the construction and operation of the Baikal-GVD, O.V.Suvorova et al., TEVPA2021, TEV Partical Astrophysics Conference, China, 25-29 October 2021; https://indico.ihep.ac.cn/event/11934/
ПРНД= 15*0.10= 1.5

5. Optical calibration in Baikal-GVD, A.D.Avrorin et al., Camera workshop organized by SKKU university South Korea/University of Utah: Camera systems and image analysis for neutrino detectors calibration, glaciology and deep sea exploration, zoom, 16-17 Dec 2021, https://sites.google.com/view/workshop-on-cameras/main
ПРНД= 10+15*0.10= 11.5

   6. Baikal-GVD neutrino telescope: status and first results, G.B.Safronov et al.,
   Contribution to LXXI International conference NUCLEUS – 2021, St. Petersburg, September 20-25, 2021; https://indico.cern.ch/event/1012633/
   ПРНД= 15*0.1 = 1.5

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Итого (доклады): 137.005
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Итого: ПРНД= 144.996+137.005= 282.001


Заведующий лабораторией НАВЭ

Г.В.Домогацкий