Astronomy and Astrophysics – Astrophysics
Scientific paper
1998-08-11
Phys.Rev. D59 (1999) 023005
Astronomy and Astrophysics
Astrophysics
Final version with minor corrections, to be published in PRD. Includes a "Note Added" in response to astro-ph/9811144
Scientific paper
10.1103/PhysRevD.59.023005
In a supernova core, magnetic fields cause a directional variation of the neutrino refractive index so that resonant flavor oscillations would lead to a deformation of the "neutrinosphere" for, say, tau neutrinos. The associated anisotropic neutrino emission was proposed as a possible origin of the observed pulsar proper motions. We argue that this effect was vastly overestimated because the variation of the temperature over the deformed neutrinosphere is not an adequate measure for the anisotropy of neutrino emission. The neutrino flux is generated inside the neutron star core and is transported through the atmosphere at a constant luminosity, forcing the temperature gradient in the atmosphere to adjust to the inflow of energy from below. Therefore, no emission anisotropy is caused by a deformation of the neutrinosphere to lowest order. An estimate of the higher-order corrections must take into account the modified atmospheric temperature profile in response to the deformation of the neutrinosphere and the corresponding feedback on the core. We go through this exercise in the framework of a simplified model which can be solved analytically.
Janka H.-Th.
Raffelt Georg
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