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Resonant-line radiative transfer within power-law density profiles

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arxiv 2005.09692 v2 pith:SZBVI7KD submitted 2020-05-19 astro-ph.GA astro-ph.CO

Resonant-line radiative transfer within power-law density profiles

classification astro-ph.GA astro-ph.CO
keywords analyticdensitygalaxiesexistinghoweverincludingpower-lawpredictions
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Star-forming regions in galaxies are surrounded by vast reservoirs of gas capable of both emitting and absorbing Lyman-alpha (Lya) radiation. Observations of Lya emitters and spatially extended Lya haloes indeed provide insights into the formation and evolution of galaxies. However, due to the complexity of resonant scattering, only a few analytic solutions are known in the literature. We discuss several idealized but physically motivated scenarios to extend the existing formalism to new analytic solutions, enabling quantitative predictions about the transport and diffusion of Lya photons. This includes a closed form solution for the radiation field and derived quantities including the emergent flux, peak locations, energy density, average internal spectrum, number of scatters, outward force multiplier, trapping time, and characteristic radius. To verify our predictions, we employ a robust gridless Monte Carlo radiative transfer (GMCRT) method, which is straightforward to incorporate into existing ray-tracing codes but requires modifications to opacity-based calculations, including dynamical core-skipping acceleration schemes. We primarily focus on power-law density and emissivity profiles, however both the analytic and numerical methods can be generalized to other cases. Such studies provide additional intuition and understanding regarding the connection between the physical environments and observational signatures of galaxies throughout the Universe.

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  1. Force convergence in Monte Carlo Lyman-alpha radiative transfer

    astro-ph.GA 2026-07 accept novelty 6.0

    A moment-based hierarchy (zeroth, first, second order) diagnoses convergence of Lyman-alpha MCRT momentum-transfer estimators, showing that core-skipping biases internal forces and that statistical precision, cost, an...