The effect of interplanetary acceleration on the propagation of energetic solar particles in prompt events |
| |
Authors: | S. Cecchini X. Moussas J. J. Quenby |
| |
Affiliation: | 1. Laboratorio TESRE/CNR, Bologna, Italy 2. Astrophysics Laboratory, University of Athens, Panepistimiopolis, Athens, Greece 3. Blackett Laboratory, Imperial College, London, England
|
| |
Abstract: | Crank-Nicholson solutions are obtained to the time-dependent Fokker-Planck equation for propagation in the interplanetary medium following a point in time injection of energetic solar particles and including the acceleration terms $$frac{partial }{{partial T}}left( {D_{TT} frac{{partial U}}{{partial T}}} right) - frac{partial }{{partial T}}left( {frac{{D_{TT} U}}{{2T}}} right)$$ . The diffusion coefficient in kinetic energyD TT is allowed to be either independent of radial distance,R(AU), or follow the lawD TT=D0T2R 0 2 /(A2+R2) in either case with the 1 AU value ofD TT at 10 MeV ranging between 10?4 (MeV)2 s?1 and zero. The spatial diffusion mean free path at the Earth's orbit is fixed at λ‖ AU at 10 MeV according to numerical estimates made by Moussas and Quenby. However, a variety ofR dependences are allowed. Reasonable agreement with experimental data out to 4 AU is obtained with the above values ofD TT and the spatial diffusion coefficientK r=K0R?2 forR«1 andK r=K0R0.4 forR»1 AU. It is only in the decay phases of prompt events as seen at 2–4 AU that significant differences in the temporal behaviour of the events can be distinguished, depending on the value ofD TT chosen within the above range. Experimental determination of the decay constant is difficult. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|