Solar Proton Rigidity Spectra From 1 to 10 gv of Selected Flare Events Since 1960 |
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Authors: | Lockwood J.A. Debrunner H. Flueckiger E.O. Ryan J.M. |
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Affiliation: | (1) Space Science Center, University of New Hampshire, Durham, NH;(2) Physikalisches Institut, University of Bern, CH-3012 Bern, Switzerland |
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Abstract: | We have deduced the power-law rigidity spectra, J(P)=AP–, and the spectral evolution of the solar flare events that occurred in the present solar activity cycle on 6 November 1997, 14 July 2000, and 15 and 18 April 2001. The implications of these results for the acceleration of high-energy protons are discussed. The analysis is based on the ratios of the Mt. Washington to the Durham neutron monitor count-rate increases during the solar flare events. These two neutron monitors are located at different elevations (828 and 1030 g cm–2, respectively) but at approximately the same geographical latitude and longitude. The proton spectra from 1 to 10 GV determined from the ratios of the count rate increases of the two neutron monitors are found to agree with those deduced from the global neutron monitor network or selected neutron monitors in 10 solar flare events from 1960 to 1990 for which comparative results are available. Thus the ratio method is quick, easy and reliable for deducing the spectral shape of solar flare protons at neutron monitor rigidities and for obtaining the spectral evolution as a function of time. |
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