Isotropic radiative transfer as a phase space process: Lorentz covariant Green's functions and first-passage times

Isotropic radiative transfer as a phase space process: Lorentz covariant Green's functions and first-passage times

The solutions of the radiative transfer equation, known for the energy density, do not satisfy the fundamental transitivity property for Green's functions expressed by Chapman-Kolmogorov's relation. I show that this property is retrieved by considering the radiance distribution in phase sp...

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Veröffentlicht in:Europhysics letters 2022-07, Vol.139 (1), p.11001
1. Verfasser: Rossetto, Vincent
Format: Artikel
Sprache:eng
Schlagworte:
Clean energy
Exact solutions
Fokker-Planck equation
Green's functions
Physics
Probability density functions
Radiative transfer
Random walk
Time measurement
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Zusammenfassung:The solutions of the radiative transfer equation, known for the energy density, do not satisfy the fundamental transitivity property for Green's functions expressed by Chapman-Kolmogorov's relation. I show that this property is retrieved by considering the radiance distribution in phase space. Exact solutions are obtained in one and two dimensions as probability density functions of continous-time persistent random walks, the Fokker-Planck equation of which is the radiative transfer equation. The expected property of Lorentz covariance is verified. I also discuss the measured signal from a pulse source in one dimension, which is a first-passage time distribution, and unveil an effective random delay when the pulse is emitted away from the observer.
ISSN:0295-5075
1286-4854
DOI:10.1209/0295-5075/ac747c