Dissipation of Magnetohydrodynamic Waves on Energetic Particles: Impact on Interstellar Turbulence and Cosmic Ray Transport

A. W. Strong (MPE); F. C. Jones (NASA GSFC); I. V. Moskalenko (Stanford); V. N. Zirakashvili (IZMIRAN); V. S. Ptuskin (IZMIRAN)

arxiv: astro-ph/0510335 · v2 · submitted 2005-10-11 · 🌌 astro-ph

Dissipation of Magnetohydrodynamic Waves on Energetic Particles: Impact on Interstellar Turbulence and Cosmic Ray Transport

V. S. Ptuskin (IZMIRAN) , I. V. Moskalenko (Stanford) , F. C. Jones (NASA GSFC) , A. W. Strong (MPE) , V. N. Zirakashvili (IZMIRAN) This is my paper

classification 🌌 astro-ph

keywords cosmicdissipationparticlescascadediffusionenergeticimpactinterstellar

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The physical processes involved in diffusion of Galactic cosmic rays in the interstellar medium are addressed. We study the possibility that the nonlinear MHD cascade sets the power-law spectrum of turbulence which scatters charged energetic particles. We find that the dissipation of waves due to the resonant interaction with cosmic ray particles may terminate the Kraichnan-type cascade below wavelengths 10^13 cm. The effect of this wave dissipation has been incorporated in the GALPROP numerical propagation code in order to asses the impact on measurable astrophysical data. The energy-dependence of the cosmic-ray diffusion coefficient found in the resulting self-consistent model may explain the peaks in the secondary to primary nuclei ratios observed at about 1 GeV/nucleon.

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