Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/46052
Título: Modeling of population kinetics of plasmas that are not in local thermodynamic equilibrium, using a versatile collisional-radiative model based on analytical rates
Autores/as: Florido, R. 
Rodriguez, R. 
Gil, J. M. 
Rubiano, J. G. 
Martel, P. 
Mínguez, E.
Mancini, R. C.
Clasificación UNESCO: 220410 Física de plasmas
Palabras clave: Electron-Impact Ionization
Photon-Escape Probabilities
Charge-State Distribution
Laser-Produced Plasmas
Non-Lte Plasmas, et al.
Fecha de publicación: 2009
Editor/a: 1539-3755
Proyectos: Keep in Touch (UE)
Publicación seriada: Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 
Resumen: We discuss the modeling of population kinetics of nonequilibrium steady-state plasmas using a collisional-radiative model and code based on analytical rates (ABAKO). ABAKO can be applied to low-to-high Z ions for a wide range of laboratory plasma conditions: coronal, local thermodynamic equilibrium or nonlocal thermodynamic equilibrium, and optically thin or thick plasmas. ABAKO combines a set of analytical approximations to atomic rates, which yield substantial savings in computer running time, still comparing well with more elaborate codes and experimental data. A simple approximation to calculate the electron capture cross section in terms of the collisional excitation cross section has been adapted to work in a detailed-configuration-accounting approach, thus allowing autoionizing states to be explicitly included in the kinetics in a fast and efficient way. Radiation transport effects in the atomic kinetics due to line trapping in the plasma are taken into account via geometry-dependent escape factors. Since the kinetics problem often involves very large sparse matrices, an iterative method is used to perform the matrix inversion. In order to illustrate the capabilities of the model, we present a number of results which show that the ABAKO compares well with customized models and simulations of ion population distribution. The utility of ABAKO for plasma spectroscopic applications is also outlined.
URI: http://hdl.handle.net/10553/46052
ISSN: 1539-3755
DOI: 10.1103/PhysRevE.80.056402
Fuente: Physical Review E [ISSN 1539-3755], v. 80 (5, part. 2), 056402 (Noviembre 2009)
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