Antiproton Flux in Cosmic Ray Propagation Models with Anisotropic Diffusion

Abstract

Recently a cosmic ray propagation model has been introduced, where anisotropic diffusion is used as a mechanism to allow for O(100) km/s galactic winds. This model predicts a reduced antiproton background flux, suggesting an excess is being observed. We implement this model in GALPROP v50.1 and perform a 2 analysis for B/C, 10Be/9Be, and the recent PAMELA p/p datasets. By introducing a power-index parameter α that dictates the dependence of the diffusion coefficient Dxx on height |z| away from the galactic plane, we confirm that isotropic diffusion models with α=0 cannot accommodate high velocity convective winds suggested by ROSAT, while models with α=1 (Dxx |z|) can give a very good fit. A fit to B/C and 10Be/9Be data predicts a lower p/p flux ratio than the PAMELA measurement at energies between approximately 2 GeV to 20 GeV. A combined fit including in addition the p/p data is marginal, suggesting only a partial contribution to the measured antiproton flux.