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Title: | Radiative properties for astrophysical plasma mixtures in nonlocal thermodynamic equilibrium | Authors: | Rodriguez, Rafael Espinosa, Guadalupe Miguel Gil, Juan |
UNESCO Clasification: | 22 Física | Keywords: | Opacity Calculations Optically Thin Wide-Range Stellar Envelopes Transition-Arrays, et al |
Issue Date: | 2018 | Publisher: | 2470-0045 | Project: | Desarrollo de Modelos Físicos y Su Integración Computacional Para la Descripción Microscópica de Plasmas de Alta Densidad de Energía Implementation of activities described in the Roadmap to Fusion during Horizon 2020 through a Joint programme of the members of the EUROfusion consortium Eurofusión AWP15-ENR-01/CEA-02 |
Journal: | Physical review. E | Abstract: | Radiative properties play a pivotal role in astrophysical plasma flows and are needed in radiation-hydrodynamic simulations in order to understand their behavior and also to interpret the plasma emission spectra, which are valuable diagnostic tools. Radiative properties of astrophysical plasma mixtures have been commonly calculated for low-density optically thin plasmas assuming coronal equilibrium and for high density assuming local thermodynamic equilibrium. However, there are wide ranges of conditions in which these thermodynamic regimes are not achieved and the plasma is in the nonlocal thermodynamic equilibrium regime. In the present work, a study of the plasma radiative properties of oxygen and iron and an astrophysical plasma mixture in nonlocal thermodynamic steady-state equilibrium is carried out. The ranges of electron temperatures and densities considered are 1-1000 eV and 10(11)-10(20) cm(-3), respectively. In the study, departures from coronal and local thermodynamic equilibria in terms of the density and temperature are also analyzed. Large differences in the radiative properties that can reach two orders of magnitude when the plasma is far from these thermodynamic regimes are obtained. These analyses are done assuming the plasma to be optically thin. A brief study of the influence of the plasma self-absorption in the radiative properties of oxygen and iron is made. For that purpose, the plasma is assumed with planar geometry and the study is performed in terms of the width of the plasma slab and electron temperature and density. | URI: | http://hdl.handle.net/10553/42201 | ISSN: | 2470-0045 | DOI: | 10.1103/PhysRevE.98.033213 | Source: | Physical Review E [ISSN 2470-0045], v. 98 (3), (033213) |
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