Backward fluorescence of optically thick Cs vapor: Experiment and Monte-Carlo simulations

“…One main advantage of these functions is that they involve analytical expressions or integrals that can be evaluated numerically within a reasonable CPU time; applications include inertial fusion [7] and related research works in astrophysics (e.g., see Refs. [8][9][10] for reviews), laboratory plasma experiments [11,12], and general transport theory [13,14]. In each of these domains, the radiation field is investigated based on a numerical solving of the radiative transfer equation and redistribution functions occur therein through an integral scattering term.…”

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

“…One main advantage of these functions is that they involve analytical expressions or integrals that can be evaluated numerically within a reasonable CPU time; applications include inertial fusion [7] and related research works in astrophysics (e.g., see Refs. [8][9][10] for reviews), laboratory plasma experiments [11,12], and general transport theory [13,14]. In each of these domains, the radiation field is investigated based on a numerical solving of the radiative transfer equation and redistribution functions occur therein through an integral scattering term.…”

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

Dependence of Lévy-flight transmission on the starting point for photons propagating in atomic vapors

Sample size effects for Lévy flight of photons in atomic vapors