|Title:||Simulation of Plasma Microscopy Properties and Ion Beam-Plasma Interaction Processes in Plasmas by Using MIXKIP/RAPCAL/STOPP CODE||Authors:||Gil, J. M.
Beltrán, P. R.
|UNESCO Clasification:||220410 Física de plasmas||Keywords:||Mean Excitation Energy
Nonlocal Thermodynamic Equilibrium
Plasma Atomic Properties
Radiative Properties, et al
|Issue Date:||2020||Journal:||International Journal of Computational Methods||Conference:||International Conference on Computational Methods (ICCM)||Abstract:||In this work, a versatile computational package, named MIXKIP/RAPCAL/STOPP, developed to simulate and calculate the microscopy properties of plasmas as well as the characteristic parameters of the ion beam-plasma interaction processes is presented. The physical and numerical model implemented combines a set of theoretical and numerical approximations which still compare well with more elaborated codes and experimental data. In order to show the capabilities of the computational package, simulations of the spectrally resolved radiative properties of xenon plasmas doped with helium under the conditions of radiative shocks generated at the PALS laser as well as energy loss calculations of carbon ion beams in partially aluminum plasmas are presented.||URI:||http://hdl.handle.net/10553/69898||ISSN:||0219-8762||DOI:||10.1142/S0219876219400097||Source:||International Journal Of Computational Methods[ISSN 0219-8762],v. 17 (5), (Junio 2020)|
|Appears in Collections:||Artículos|
Items in accedaCRIS are protected by copyright, with all rights reserved, unless otherwise indicated.