Systematic Investigation of Solar Modulation of Galactic Protons for Solar Cycle 23 using a Monte Carlo Approach with Particle Drift Effects and Latitudinal Dependence

P. Bobik , G. Boella , M.J. Boschini , C. Consolandi , S. Della Torre , M. Gervasi , D. Grandi , K. Kudela

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S. Pensotti P.G. Rancoita M. Tacconi

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classification 🌌 astro-ph.SR astro-ph.EP

keywords solareffectsprotonsapproachcarlocosmiccycledrift

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A propagation model of galactic cosmic protons through the Heliosphere was implemented using a 2-D Monte Carlo approach to determine the differential intensities of protons during the solar cycle 23. The model includes the effects due to the variation of solar activity during the propagation of cosmic rays from the boundary of the heliopause down to Earth's position. Drift effects are also accounted for. The simulated spectra were found in agreement with those obtained with experimental observations carried out by BESS, AMS and PAMELA collaborations. In addition, the modulated spectrum determined with the present code for the year 1995 exhibits the latitudinal gradient and equatorial southward offset minimum found by Ulysses fast scan in 1995.

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Constraints on Primordial Black Holes from Galactic Diffuse Synchrotron Emissions
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Galactic synchrotron emissions above 20 MHz can set tighter upper limits on the abundance of primordial black holes with masses above 10^16 grams than previous cosmic-ray electron data.