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Home / Conferences / Modern astronomy: from the Early Universe to exoplanets and black holes / Modern astronomy: from the Early Universe to exoplanets and black holes Volume 1
Diversity and similarity of linear polarization among low-albedo NEAs: extremely high polarization of NEA 25330 (1999 KV4)
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DIVERSITY AND SIMILARITY OF LINEAR POLARIZATION AMONG LOW-ALBEDO NEAS: EXTREMELY HIGH POLARIZATION OF NEA 25330 (1999 KV4)
Kiselev N. 1
Shcherbina M. 2
Busarev V. 3
Zhuzhulina E. 4
Karpov N. 5
Shein A. 6
Authors:
1.  Crimean Astrophysical Observatory of the Russian Academy of Sciences
Institute of Astronomy of the Russian Academy of Sciences
2.  Sternberg Astronomical Institute, Moscow State University
Institute of Astronomy (INASAN)
3.  Lomonosov Moscow State University
Institute of Astronomy (INASAN) RAS
Russian Federation
4.  Crimean Astrophysical Observatory of the Russian Academy of Sciences
5.  Institute of Astronomy of the Russian Academy of Sciences
6.  Institute of Astronomy of the Russian Academy of Sciences
Type:
Сonference article
DOI:
https://doi.org/10.26119/VAK2024.106
EDN:
https://elibrary.ru/oryrwp
Published:
27.12.2024
Subject area:
1
52
53
520
521
523
524
52-1
52-6
41.51
41.00
29.35
29.31
29.33
29.27
29.05
03.05.01
03.06.01
03.04.03
2
223
6
614
6135
SCI004000
SCI005000
Language:
English
Keywords:
Polarimeters; polarimetric observations; asteroids: NEA 25330
Funding:
RSF grant 22-12-00115
Abstract and keywords
Abstract (English):
This study explores the diversity and similarity of linear polarization among low-albedo Near-Earth Asteroids (NEAs), focusing on the exceptionally high polarization of NEA 25330 (1999 KV4). Polarimetric observations are essential for understanding the physical properties of NEAs, providing insights into the nature of scattering particles and ambient physical processes that cannot be achieved using other observational methods.

Keywords:
Polarimeters; polarimetric observations; asteroids: NEA 25330
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References

1. Cellino A., Bagnulo S., Belskaya I., et al., 2018, Monthly Notices of the Royal Astronomical Society: Letters, 481, 1, p. L49

2. Emel'yanenko V. and Kartashova A., 2023, INASAN Science Reports, 8, 6, p. 306

3. Kiselev N. and Velichko F., 1997, Earth, Moon, and Planets, 78, 1/3, p. 347

4. Kiselev N., Savushkin A., Petrov D., et al., 2024, Monthly Notices of the Royal Astronomical Society, 527, 2, p. 3174

5. Ito T., Ishiguro M., Arai T., et al., 2018, Nature Communications, 9, id. 2486

6. Kuroda D., Ishiguro M., Watanabe M., et al., 2018, Astronomy & Astrophysics, 611, id. A31

7. Kuroda D., Geem J., Akitaya H., et al., 2021, Astrophysical Journal Letters, 911, 2, id. L24

8. Lupishko D., 2019, NASA Planetary Data System

9. Miura H., Nakamura E., Kunihiro T., 2022, Astrophysical Journal Letters, 925, 2, id. L15

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