To the question of north-south asymmetry of solar activity in the 25th Schwabe-Wolf cycle

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Abstract

An analysis of the north-south asymmetry (NSA) of the groups of sunspots and flares location during the growth phase of the 25th Schwabe-Wolf cycle of solar activity was performed. During the first four years of the cycle’s development, sunspot activity increased quasi-synchronously in the northern and southern hemispheres; the module of the NSA coefficient during this period decreased from 0.6 to 0.2. The longitudinal distribution of sunspots in the second half of 2023 was uneven and similar in both hemispheres; groups of sunspots appeared during this period mainly in the longitudinal intervals of 30–100°, as well as 200–280°, at other longitudes activity was reduced, as in the northern, and in the southern hemispheres. The number of flares of all classes was 45% in the northern hemisphere, 42% in the southern hemisphere, 13% were not identified. The flare index was distributed between the hemispheres in the ratio of 49.5% to 42%, 8.5% were not identified. A comparison with the 24th cycle shows that NSA in the distribution of sunspots and flares between the northern and southern hemispheres in the current (25th) cycle is significantly lower than in the previous one. A high degree of symmetry of activity can ensure a greater height of the 25th cycle compared to the 24th, as well as the single-peaked nature of the 25th cycle. It is hypothesized that in the 25th cycle there is a higher level of dipole parity of the global magnetic field compared to the 24th cycle.

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About the authors

S. A. Yazev

Irkutsk State University; Institute of Solar-Terrestrial Physics of the Siberian Branch of the RAS

Author for correspondence.
Email: syazev@gmail.com
Russian Federation, Irkutsk; Irkutsk

Е. S. Isaeva

Irkutsk State University

Email: syazev@gmail.com
Russian Federation, Irkutsk

V. M. Tomozov

Institute of Solar-Terrestrial Physics of the Siberian Branch of the RAS

Email: syazev@gmail.com
Russian Federation, Irkutsk

K. I. Ivanov

Irkutsk State University

Email: syazev@gmail.com
Russian Federation, Irkutsk

B. Hos-Erdene

Irkutsk State University; Institute of Astronomy and Geophysics MAS

Email: syazev@gmail.com
Russian Federation, Irkutsk; Ulaan-Baatar, Mongolia

References

  1. N.V. Zolotova, D.I. Ponyavin, N. Marwan, J. Kurths, Astron. and Astrophys. 503, 197–201 (2009).
  2. S.V. Olemskoy, L.L. Kitchatinov, Astrophys. J. 777, 1, 71–79 (2013).
  3. Л.Л. Кичатинов, А.И. Хлыстова, Письма в АЖ 40, №10, 729–732 (2014).
  4. Yu.A. Nagovitsyn, A.I. Kuleshova, Geomagnetism and Aeronomy 55, 7, 887–891 (2015).
  5. D. Ratul, G. Aparup, B.K. Bidya, Monthly Not. Roy. Astron. Soc. 511, 1, 472–479 (2022).
  6. L.L. Kitchatinov, A.I. Khlystova, Astrophys. J. 919, 1, 36–45 (2021).
  7. Плазменная гелиогеофизика (М.: ФИЗМАТЛИТ, ред. Л.М. Зеленого, И.С. Веселовского, том 1, 672, 2008).
  8. В.Н. Обридко, Ю.А. Наговицын Солнечная активность, цикличность и методы прогноза (СПб.: Изд-во ВВМ, 466, 2017).
  9. Sunspot Index and Long-term Solar Observations: https://www.sidc.be/SILSO/datafiles.
  10. Сайт Лаборатории солнечной астрономии ИКИ и ИСЗФ: www.xras.ru.
  11. В.Н. Ишков Солнечная и солнечно-земная физика (СПб.: Изд. ВВМ, ред. Ю. А. Наговицын, 111–114, 2013).
  12. O. Andreeva, Advances in Space Research 71, 4, 1915–1921 (2023).
  13. S.V. Latyshev, S.V. Olemskoy, Astronomy Letters 42, 7, 488–494 (2016).
  14. A.S. Shibalova, V.N. Obridko, D.D. Sokoloff, Astronomy Reports 60, 10, 949–953 (2016).
  15. A.V. Zhukova, D.D. Sokoloff, V.I. Abramenko and A.I. Khlystova Adv. in Space Research, 71, 4, 1984–1994 (2021).
  16. С.А. Язев Феномен комплексов активности (Иркутск, изд-во ИГУ, 377, 2014).

Supplementary files

Supplementary Files
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2. Fig. 1. Changes in the monthly average R index in the 25th solar activity cycle. The Northern Hemisphere is at the top, the values ​​in the Southern Hemisphere are assigned negative values.

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3. Fig. 2. K values ​​for the number of sunspot groups during 2219–2280 Carrington revolutions.

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4. Fig. 3. Values ​​of the K module for the number of sunspot groups during 2219–2280 Carrington revolutions.

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5. Fig. 4. The course of daily R values ​​from 01.05.2023 to 31.01.2024. Blue color – northern hemisphere, red – southern hemisphere, negative values ​​are assigned to southern hemisphere values. Bold vertical lines correspond to moments when the central meridian corresponded to zero Carrington longitude.

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6. Fig. 5. The course of development of the 24th (black) and 25th (red) cycles of solar activity

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7. Fig. 6. Changes in the R index in the 24th (a) and 25th (b) cycles over the first 52 months from the beginning of the cycle. Blue color – northern hemisphere, red – southern.

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