On the Relationship of the 27-day Variations of the Solar Wind Velocity and Galactic Cosmic Ray Intensity in Minimum Epoch of Solar Activity

• Published in: Solar physics Vol. 270; no. 2; pp. 629 - 641
• Main Authors: Alania, M. V., Modzelewska, R., Wawrzynczak, A.
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.06.2011; Springer Nature B.V
• Subjects: Astrophysics and Astroparticles; Atmospheric Sciences; Correlation coefficient; Cosmic rays; Interplanetary magnetic fields; Magnetic fields; Mathematical models; Maxwell's equations; Modulation; Neutral sheets; Physics; Physics and Astronomy; Solar activity; Solar physics; Solar wind velocity; Space Exploration and Astronautics; Space Sciences (including Extraterrestrial Physics; Wind speed; Harmonic Wave; Sector Structure; Interplanetary Magnetic Field; Solar Wind Velocity; Polarity Epoch
• ISSN: 0038-0938; 1573-093X
• DOI: 10.1007/s11207-011-9778-6

We study the relationship of the 27-day variations of the galactic cosmic ray intensity with similar variations of the solar wind velocity and the interplanetary magnetic field based on observational data for the Bartels rotation period # 2379 of 23 November 2007 – 19 December 2007. We develop a three-dimensional (3-D) model of the 27-day variation of galactic cosmic ray intensity based on the heliolongitudinally dependent solar wind velocity. A consistent, divergence-free interplanetary magnetic field is derived by solving Maxwell’s equations with a heliolongitudinally dependent 27-day variation of the solar wind velocity reproducing in situ observations. We consider two types of 3-D models of the 27-day variation of galactic cosmic ray intensity, i ) with a plane heliospheric neutral sheet, and ii ) with the sector structure of the interplanetary magnetic field. The theoretical calculations show that the sector structure does not significantly influence the 27-day variation of galactic cosmic ray intensity, as had been shown before, based on observational data. Furthermore, good agreement is found between the time profiles of the theoretically expected and experimentally obtained first harmonic waves of the 27-day variation of the galactic cosmic ray intensity (with a correlation coefficient of 0.98±0.02). The expected 27-day variation of the galactic cosmic ray intensity is inversely correlated with the modulation parameter ζ (with a correlation coefficient of −0.91±0.05), which is proportional to the product of the solar wind velocity V and the strength of the interplanetary magnetic field B (ζ∼ VB ). The high anticorrelation between these quantities indicates that the predicted 27-day variation of the galactic cosmic ray intensity mainly is caused by this basic modulation effect.