Electron-Impact Excitation Cross Sections for Modeling Non-Equilibrium Gas | Zendy

Winifred M. Huo | Zendy; Yen Liu | Zendy; Marco Panesi | Zendy; A. A. Wray | Zendy; D. F. Carbon | Zendy

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Electron-Impact Excitation Cross Sections for Modeling Non-Equilibrium Gas

Author(s) -

Winifred M. Huo,

Yen Liu,

Marco Panesi,

A. A. Wray,

D. F. Carbon

Publication year - 2015

Publication title -

53rd aiaa aerospace sciences meeting

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2015-1896

Subject(s) - excitation , euler equations , physics , ionization , radiative transfer , perturbation theory (quantum mechanics) , hypersonic speed , perturbation (astronomy) , electron , computational physics , atomic physics , mechanics , thermodynamics , nuclear physics , ion , quantum mechanics

In order to provide a database for modeling hypersonic entry in a partially ionized gas under non-equilibrium, the electron-impact excitation cross sections of atoms have been calculated using perturbation theory. The energy levels covered in the calculation are retrieved from the level list in the HyperRad code. The downstream flow-field is determined by solving a set of continuity equations for each component. The individual structure of each energy level is included. These equations are then complemented by the Euler system of equations. Finally, the radiation field is modeled by solving the radiative transfer equation.

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