Iranian Journal of Geophysics

Iranian Journal of Geophysics

Solar dynamics and cosmic ray intensity: statistical analysis from 1986 to 2019

Document Type : Research Article

Authors
Nisha R 1
Shanthi G 2
1 Ph.D. Student, Research Scholar, Department of Physics, Women’s Christian College, Nagercoil, India
2 Associate Professor, Department of Physics and Research Centre, Women’s Christian College, Nagercoil, India
10.30499/ijg.2024.476329.1627
Abstract
Interpretations of cosmic ray intensity reflect various solar activities, particularly influenced by changes in solar wind plasma within the heliosphere. To investigate the periodic behavior and relationship of cosmic ray intensity with sunspot number, solar wind plasma velocity, solar wind temperature, and interplanetary magnetic field (IMF), we employed daily and annual data analysis of solar activity from September 1986 to December 2019. In analyzing the relationship between cosmic ray intensity (CRI) and solar activity, the statistical method of "cross-correlation", although widely employed in various disciplines and applications, has been a staple for investigating such relationships. The primary goal of the cross-correlation method is to study the relationship between CRI and solar activity parameters and apply this information in statistical analyses across various solar cycles or periods. In this study, calculations for the most recent solar activity cycles are provided. The analysis confirms a negative correlation between the intensity of cosmic rays and the number of sunspots, with solar wind parameters exhibiting an anachronistic phase relationship also showing a negative correlation. Furthermore, the anti-correlation of cosmic ray intensity with solar wind parameters is expected to yield insights into space weather near Earth.
Keywords
Cosmic ray intensity
sunspot number
cross-correlation
space weather
solar wind

Subjects

Agarwal, R., and Mishra, R. K., 2008, Solar cycle phenomena in cosmic ray intensity up to the recent solar cycle: Physics Letters B, 664, 31-34.
Ahluwalia, H. S., 1997, Galactic cosmic ray intensity variations at a high latitude sea level site 1937-1994: Journal of Geophysical Research, 102(A11), 24229–24234.
Aslam, O. P. M., and Badruddin, B., 2012, Solar modulation of cosmic rays during the declining and minimum phases of solar cycle 23: comparison with past three solar cycles: Solar Physics, 279, 269-288.
Berezhko, E. G., Brevnova, I. A., and Starodubtsev, S. A., 1993, Spectrum of cosmic ray intensity fluctuations in the solar activity cycle: Astronomy Letters, 19, 304-305.
Bhattachaya, R., and Roy, M., 2014, Correlative analysis of cosmic ray intensity and solar activity parameters: International Journal of Engineering Science and Technology, 6(2), 24-31.
Caballero-Lopez, R. A., Engelbrecht, N. E., and Richardson, J. D., 2019, Correlation of long-term cosmic-ray modulation with solar activity parameters: The Astrophysical Journal, 883, 73.
Chowdhury, P., and Kudela, K., 2018, Quasi-periodicities in cosmic rays and time lag with the solar activity at a middle latitude neutron monitor: 1982–2017: Astrophysics and Space Science, 363, 250.
Dorman, L., 2004, Cosmic Rays in the Earth's Atmosphere and Underground: Springer.
Dumbović, M., Vršnak, B., Čalogovi, J., and Župan, R., 2012, Cosmic ray modulation by different types of solar wind disturbances: Astronomy & Astrophysics, 538, A28.
Dwivedi, V. C., Pandey, V. S., Tiwari, D. P., and Agrawal, S. P., 2010, Effect of the solar wind speed variations on other interplanetary parameters: Indian Journal of Radio & Space Physics, 39, 252-256.
Ferreira, S. E. S., and Potgieter, M. S., 2004, Long-term cosmic-ray modulation in the heliosphere: Astrophysical Journal, 603(2), 744-752.
Forbush, S. E., 1954, World-wide cosmic-ray variations, 1937-1952: Journal of Geophysical Research, 59(4), 525-542.
Gupta, M., Mishra, V. K., and Mishra, A. P., 2006a, Study of cosmic ray intensity variations in relation to solar activity for sunspot cycles 19 to 23: Indian Journal of Radio & Space Physics, 35, 167-173.
Gupta, M., Mishra, V. K., and Mishra, A. P., 2006b, Long-term modulation of cosmic ray intensity in relation to sunspot numbers and tilt angle: Journal of Astrophysics and Astronomy, 27, 455–464.
Kane, R. P., 1972, Nature of the long-term and short-term modulations of cosmic ray intensity: Journal of Geophysical Research, 77(28), 5573
Kane, R. P., 2005, Which one is the GNEYSHEV gap?: Solar Physics, 229, 387–407.
Kane, R. P., 2006, Long-term variations of solar, interplanetary, geomagnetic indices and cosmic ray intensities- A brief tutorial: Indian Journal of Radio & Space Physics, 35(5), 312-323.
Kane, S. R., 2005, Solar wind and cosmic ray variations: Advances in Space Research, 36(5), 981-985.
Kharayat, H., and·Prasad, L., 2016, Study of cosmic ray intensity and geomagnetic storms with solar wind parameters during the period 1998–2005: Astrophysics and Space Science, 362(1), 20, https://doi.org/10.1007S10509-016-2996-5.
Mavromichalaki, H., Paouris, E., and Karalidi, T., 2007, Cosmic-ray modulation: An empirical relation with solar and heliospheric parameters: Solar Physics, 245, 369–390.
Mishra, R. K., and Agrawal, R., 2007, Long-term variations of cosmic ray anisotropy during high amplitude days: Indian Journal of Radio & Space Physics, 36, 9-13.
Oloketuyi, J., Liu, Y., Amanambu, A. C., and Zhao, M., 2020, Responses and periodic variations of cosmic ray intensity and solar wind speed to sunspot numbers: Advances in Astronomy, 2020, 1-10, https://doi.org/10.1155/2020/3527570.
Parsai, N., and Singh, N., 2016, Solar activity parameters: Correlation with cosmic ray intensity and comparison of solar cycles 22, 23 and 24: Journal of Science, 60(1), 49-54.
Pokharia, M., Prasad, L., Mathpal, C., Bhoj, C., Kharayat, H., and Mathpal, R., 2017, Association between the solar wind speed, interplanetary magnetic field and the cosmic ray intensity for solar cycles 23 and 24: Journal of Astrophysics and Astronomy, 38, 65. Popielawska, B., 1992, Components of the 11- and 22-year variation of cosmic rays: Planetary and Space Science, 40(6), 811-827.
Popielawska, B., 1995, Cosmic ray modulation during solar cycle 22: solar maximum loops at earth and global transients in the heliosphere: Journal of Geophysical Research: Space Physics, 100(A4), 5883–5899.
Potgieter, M. S., 2013, Modulation of galactic cosmic rays in the heliosphere: Space Science Reviews, 176(1-4), 389-404.
Rajesh, K. M., Agarwal, R., and Tiwari, S., 2008, Solar cycle variation of cosmic ray intensity along with interplanetary and solar wind plasma parameters: Latvian Journal of Physics and Technical Sciences, 45(3), 63-68.
Sato, T., et al. (2008). The relation between solar activity and cosmic rays: Astrophysics and Space Science, 313(1), 129-137.
Selesnick, R. S., Looper, M. D., and Mewaldt, R. A., 2007, A theoretical model of the inner proton radiation belt: Space Weather, 5(4), S04003.
Shrivastava, P. K., Shukla, R. P., and Mishra, R., 2005, Short–term influence of high speed solar wind streams on cosmic ray intensity variation during 1996–2002: 29th International Cosmic Ray Conference Pune, 1, 335-338.
Singh, R. P., Gupta, N., Gupta, R. S., and Srivastava, S. K., 2011, Correlative analysis of long-term cosmic ray modulation with solar activity parameters: Indian Journal of Scientific Research, 2(4), 11-14, ISSN: 2250-0138.
Singh, S., and Mishra, A. P., 2019, Cosmic ray intensity increases during high solar activity period for the solar cycles 22 and 23: Indian journal of physics, 93, 139-145, DOI: 10.1007/s12648-018-1284-3.
Tiwari, B. K., and Ghormare, B. R., 2014, Solar variability and their impact on the heliosphere and cosmic rays: Research Journal of Physical Sciences, 2(6), 5-8, ISSN 2320–4796.
Utomo, Y. S., 2017, Correlation analysis of solar constant, solar activity and cosmic ray: Journal of Physics Conference Series, 817(1), 012045
Zhang, M., et al., 2006, Variability of cosmic ray intensity in relation to solar wind parameters: Journal of Geophysical Research: Space Physics, 111(A10).
Iranian Journal of Geophysics
Volume 19, Issue 6
January and February 2026
Pages 59-70