11.1: Introduction

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Thus far, we have said little or nothing about the gas through which the radiation is flowing. This constitutes the second half of the problem of constructing a model for the atmosphere of a star. To get the solutions for the radiation field described in Chapter 10, we must know the opacity, − and not just the mean opacity that was required for stellar interiors, but the frequency-dependent opacity that determines which photons will escape from the star and from what location. We must understand enough of the physics of the gas for that opacity to be determined. Given that, we can calculate the emergent stellar spectrum by solving the equation of radiative transfer. This seems like a small requirement, but as we look more closely at the details of the opacity, the more specific knowledge of the state of the gas is required. For the construction of a model of the atmospheric structure, a little more is required. We must know how the particles that make up the gas interact with each other as well as with photons. Fortunately, with the aid of the assumption of local thermodynamic equilibrium (LTE), much of our task has already been accomplished.

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