Master equation theory applied to the redistribution of polarized radiation in the weak radiation field limit

Abstract: Context. This paper presents a numerical application of a self-consistent theory of partial redistribution in nonlocal thermodynamical equilibrium conditions, developed in previous papers of the series. Aims. The code was described in IV of this series. However, in that previous paper, the numerical results were unrealistic. The present paper presents an approximation able to restore the reliability of the outgoing polarization profiles. Methods. The convergence of the results is also proved. It is demonstrate… Show more

“…In plasma physics, the process of radiation scattering is described by a redistribution function R(ω, n, ω , n ): This quantity is the joint probability density for an atom absorbing a photon with frequency ω and direction n and reemitting it with frequency ω and direction n. Redistribution function models are widely used in astrophysics for the description of spectral line formation from stellar atmospheres out of local thermodynamic equilibrium [1][2][3][4]. In regimes where collisions between the radiator and the plasma particles are frequent, the reemitted photon loses memory of the state of the incoming photon and the corresponding emission line shape function is identical to the absorption line shape function [1,5]; this situation is referred to as complete redistribution.…”

Collisional redistribution of hydrogen line radiation in low- and moderate-density magnetized plasmas

“…In plasma physics, the process of radiation scattering is described by a redistribution function R(ω, n, ω , n ): This quantity is the joint probability density for an atom absorbing a photon with frequency ω and direction n and reemitting it with frequency ω and direction n. Redistribution function models are widely used in astrophysics for the description of spectral line formation from stellar atmospheres out of local thermodynamic equilibrium [1][2][3][4]. In regimes where collisions between the radiator and the plasma particles are frequent, the reemitted photon loses memory of the state of the incoming photon and the corresponding emission line shape function is identical to the absorption line shape function [1,5]; this situation is referred to as complete redistribution.…”

Collisional redistribution of hydrogen line radiation in low- and moderate-density magnetized plasmas