Abstract
In this work, monthly means of cosmic ray count rates from two mid latitude (Hermanus and Rome), and two higher latitude (Inuvik and Oulu) neutron monitors (NM) were employed and their variability was compared with geomagnetic stations that are in close proximity to the NMs. The data spans 1966 to 2008 and covers four solar cycles. The difference (CRdiff) between the mean count rate of all days and the mean of the five quietest days for each month was compared with the Dst-related disturbance (Hdiff) derived from the nearby geomagnetic stations. Zeroth- and First-correlation between the cosmic ray parameters and geomagnetic parameters was performed to ascertain statistical association and test for spurious association. The present results show that solar activity is generally strongly correlated (>0.75) with mean strength of GCR count rate and geomagnetic field during individual solar cycles. The correlation between mean strength of cosmic ray intensity and geomagnetic field strength is spurious and is basically moderated by the solar activity. The signature of convection driven disturbances at high latitude geomagnetic stations was evident during the declining phase of the solar cycles close to the solar minimums. The absence of this feature in the slow-time varying cosmic ray count rates in all stations and in the mid latitude geomagnetic stations suggests that the local geomagnetic disturbance do not play a significant role in modulating the cosmic ray flux. Key words: Geomagnetic field variability, solar activity, galactic cosmic rays, cosmic ray modulation.
Highlights
Galactic cosmic rays are modulated by both the heliosphere and magnetospheres of planets
(2) The evolution of the cosmic ray count rate is different for odd cycles and even cycles in confirmation of the drift theory
Removal of solar activity effect from the statistical association between geomagnetic field and cosmic ray intensity generally indicates that the 11-year cosmic ray variation is not due directly to the variations in the geomagnetic field (e.g during storms) but rather on variations in the heliospheric conditions which modify both the cosmic ray intensity and the geomagnetic field
Summary
Galactic cosmic rays are modulated by both the heliosphere and magnetospheres of planets. The modulation of these cosmic rays both in the heliosphere and magnetosphere have been long studied by many authors and some consensus on the mode of transportation have been established. The most basic approximation is that the cosmic ray diffuse through the turbulent magnetic field with a diffusion coefficient κ determined by the magnetic fluctuation. For the simplified picture in which just the one dimensional radial diffusion against the outward convective motion is assumed and the resulting flux through the surface unit are balanced, the diffusion coefficient is the function of energy, distance and time (Longair, 2004). Propagation of GCRs in the heliosphere is well described by the Parker (1965) equation given
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