Author(s): Safeia Hamasha | Amani Naser
Journal: Journal of Applied Sciences
ISSN 1812-5654
Volume: 11;
Issue: 19;
Start page: 3413;
Date: 2011;
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Original page
Keywords: two photon decay | Radiative recombination | hydrogenic ions | photoionization cross section | atomic structure
ABSTRACT
A modified atomic calculations program enhanced with a Hydrogenic model is introduced and tested based on the recently published Hamasha-Tahat Atomic Code (HTAC). Modified HTAC program generates atomic data for plasma and astrophysics applications without going through the complications of atomic theories or the programming languages. It includes extra features that enable producing accurate atomic data for radiative transition rates, radiative recombination rates, photoionization cross sections, radiative recombination cross sections and the two photon decay rates. The program enables access to many parameters that determine the calculation accuracy and allows inputting the parameters through a user friendly interface.
Journal: Journal of Applied Sciences
ISSN 1812-5654
Volume: 11;
Issue: 19;
Start page: 3413;
Date: 2011;
VIEW PDF
DOWNLOAD PDF Original pageKeywords: two photon decay | Radiative recombination | hydrogenic ions | photoionization cross section | atomic structure
ABSTRACT
A modified atomic calculations program enhanced with a Hydrogenic model is introduced and tested based on the recently published Hamasha-Tahat Atomic Code (HTAC). Modified HTAC program generates atomic data for plasma and astrophysics applications without going through the complications of atomic theories or the programming languages. It includes extra features that enable producing accurate atomic data for radiative transition rates, radiative recombination rates, photoionization cross sections, radiative recombination cross sections and the two photon decay rates. The program enables access to many parameters that determine the calculation accuracy and allows inputting the parameters through a user friendly interface.
