УДК 53 Физика
УДК 520 Инструменты, приборы и методы астрономических наблюдений, измерений и анализа
УДК 521 Теоретическая астрономия. Небесная механика. Фундаментальная астрономия. Теория динамической и позиционной астрономии
УДК 523 Солнечная система
УДК 524 Звезды и звездные системы. Вселенная Солнце и Солнечная система
УДК 52-1 Метод изучения
УДК 52-6 Излучение и связанные с ним процессы
ГРНТИ 41.00 АСТРОНОМИЯ
ГРНТИ 29.35 Радиофизика. Физические основы электроники
ГРНТИ 29.31 Оптика
ГРНТИ 29.33 Лазерная физика
ГРНТИ 29.27 Физика плазмы
ГРНТИ 29.05 Физика элементарных частиц. Теория полей. Физика высоких энергий
ОКСО 03.06.01 Физика и астрономия
ОКСО 03.05.01 Астрономия
ОКСО 03.04.03 Радиофизика
ББК 2 ЕСТЕСТВЕННЫЕ НАУКИ
ББК 223 Физика
ТБК 614 Астрономия
ТБК 6135 Оптика
BISAC SCI004000 Astronomy
BISAC SCI005000 Physics / Astrophysics
The study of small bodies of the Solar system provides the key to understanding the processes of its formation and evolution. Basic science here is closely related to the applied aspects. First of all, this is true in relation to Near-Earth Objects (NEOs). The brief overview focuses on the discussion of such links. In particular, the following two topics connecting fundamental and practical issues are considered: origin, characteritics, and evolution of the NEO population $\leftrightarrow$ the problem of asteroid-comet hazard; meteoroids of both cometary and asteroid origin $\leftrightarrow$ safety of space activities in near-Earth space. The issues of coordination of research on small bodies topic both at the domestic and international levels are briefly discussed too. Special attention is paid to the prospects for coordinating research work on small bodies within the framework of the federal project ``Mlechny Put'' (Milky Way).
small bodies of the Solar system, Near-Earth Objects, planetary defense, meteoroids, safety of space activities
1. Barbee B. W., Sarli B., Lyzhoft J., et al., 2020, LPI Contrib., 2242, id. 2009
2. Braun V., Horstmann A., Lemmens S., et al., 2021, 8th European Conference on Space Debris, id. 18
3. Buckley D., McBride V., Barres De Almeida U., et al., 2021, Anais da Academia Brasileira de Ciencias, 93, id. e20200917
4. Busarev V.V., Barabanov S. I., and Puzin V. B., 2016, Solar System Research, 50, 4, p. 281
5. Cour-Palais B. G., 1969, ``Meteoroid Environment Model-1969: Near Earth to Lunar Surface", NASA SP-8013 (Washington, DC: NASA)
6. Drolshagen G., Koschny D., Drolshagen S., et al., 2017, Plavetary and Space Science, 143, p. 21
7. Flegel S.K., Krisko P., Gelhaus J., et al., 2010, 38th COSPAR Scientific Assembly, 38, p. 12
8. Granvik M., Morbidelli A., Jedicke R., et al., 2018, Icarus, 312, p. 181
9. Grun E., Zook H.A., Fechtig H., et al., 1985, Icarus, 62, 2, p. 244
10. Harris A.W. and Harris A.W. 1997, Icarus, 126, 2, p. 450
11. Hoffmann T., Gehlen M., Plaggenborg T., et al., 2022, Frontiers in Astronomy and Space Sciences, 9, id. 895732
12. Ivezic Z ., Kahn S.M., Tyson J.A., et al., 2019, Astrophys. J., 873, 2, id. 111
13. Jacobson S., Bose M., Bodewits D., et al., 2021, Bulletin of the American Astronomical Society, 53, 4, id. 171
14. Karpov S., Beskin G., Biryukov A., et al., 2016, Revista Mexicana de Astronomia y Astrofisica Conference Series, 48, p. 91
15. Mainzer A.K., Masiero J.R., Abell P.A., et al., 2023, Planetary Science Journal, 4, 12, id. 224
16. Marchiori G., Tordi M., Ghedin L., et al., 2022, Proc. SPIE, 12182, id. 121824K
17. Moorhead A.V., 2019, LPI Contrib., 2109, id. 6054
18. Murtazov A.K., 2018, Open Astronomy, 27, p. 144
19. Reddy V., Kelley M.S., Farnocchia D., et al., 2019, Icarus, 326, p. 133
20. Shugarov A., Shmagin V., Boqian X., et al., 2021, 7th IAA Planetary Defense Conference, id. 100
21. Shustov B.M., 2019, INASAN Science Reports, 4, p. 356
22. Shustov B.M., Naroenkov S.A., Emel’yanenko V.V., et al., 2013, Solar System Research, 47, 4, p. 288
23. Shustov B.M., Shugarov A.S., Naroenkov, S. A., 2015, Astronomy Reports, 59, 10, p. 983
24. Shustov B.M., Zolotarev R.V., Busarev V.V., et al., 2022, Astronomy Reports, 66, 11, p. 1098
25. Tonry J. L., Denneau L., Heinze A.N., et al., 2018, PASP, 130, id. 064505
26. Yang H. and Ishiguro M., 2018, Astrophys. J., 854, 2, id. 173
27. Zolotarev R.V. and Shustov B.M., 2023, Astronomy Reports, 67, 10, p. 1019
