http://arxiv.org/abs/2204.06266
The Boltzmann-Gibbs thermodynamic equilibrium state of charged particles pitch-angle scattered by weak plasma waves is discussed. Degrees of freedom of these waves play a fundamental role in constructing the grand canonical ensemble. Via the gyro-resonance condition, fast particles have an inverse break power-law spectrum for $ \varepsilon -\mu \ll T $, where $ \varepsilon $ is the particle energy, $ \mu $ is the chemical potential, $ T $ is the temperature. The break energies are the rest energy and $ -\mu $. For $ \varepsilon \ll -\mu \ll T $, the energy spectral index $ \alpha $ is $ \delta /2+1 $ and $ \delta +1 $ for non- and ultra-relativistic particles, respectively, with $ \delta $ an effective fractal dimension of background magnetic field lines. The spectral index for $ -\mu \ll \varepsilon \ll T $ is $ \alpha +1 $. This thermal equilibrium scenario, combined with the leaky-box model and cosmic-ray observations, seems to suggest that the Galactic magnetic field is super-diffusive with $ \delta \approx 1.4 $.
Y. Zhang
Thu, 14 Apr 22
50/62
Comments: Accepted for publication in Astroparticle Physics