Magnetic fields and cosmic ray anisotropies at TeV energies

Abstract

Several cosmic-ray observatories have provided a high accuracy map of the sky at TeV--PeV energies. The data reveals an O(0.1%) deficit from north galactic directions that peaks at 10 TeV and then evolves with the energy, together with other anisotropies at smaller angular scales. Using Boltzmann's equation we derive expressions for the cosmic-ray flux that fit most of these features. The anisotropies depend on the local interstellar magnetic field BIS, on the average galactic field BR in our vicinity, and on the distribution of dominant cosmic-ray sources. We show that the initial dipole anisotropy along BIS can be modulated by changes in the global cosmic ray wind, and that a variation in the dipole direction would imply a given radius of coherence for BIS. We also show that small and medium-scale anisotropies may appear when the full-sky anisotropy finds a turbulence acting as a magnetic lens.