Prism Atomic Physics Data

The ATBASE suite of atomic physics codes is used to generate high-quality atomic data for simulating the spectral properties and ionization dynamics of plasmas over a wide range of conditions. It utilizes a suite of atomic structure and modeling codes, including Hartree-Fock, Dirac-Fock, configuration interaction, and distorted wave codes.

ATBASE atomic data has been used extensively in the analysis of spectra from laboratory and astrophysical plasmas. ATBASE data is utilized in Prism's plasma applications codes (SPECT3D, PrismSPECT, HELIOS-CR, PROPACEOS) to simulate the ionization dynamics and detailed spectral properties of LTE and non-LTE plasmas.

Example uses of ATBASE:

	Generation of comprehensive atomic databases for low-to-mid-Z elements for use in collisional-radiative spectral analysis codes.
	Calculation of customized atomic databases for detailed investigations of atomic processes and spectral properties of specific elements or ions.
	Generation of data for basic plasma physics research performed at government laboratories and universities.
	Generation of data for commercial applications, such as Xe atomic data and Sn atomic data for EUV lithography studies.

Overview of Models

ATBASE generates a comprehensive set of atomic data for all ions of any atomic element. The types of data generated include:

Atomic energy levels and oscillator strengths		Xenon emission spectrum. Mg + Al absorption spectrum. Al Ka satellite absorption spectrum. Ar emission spectrum.
Computed using Hartree-Fock and configuration interaction models. When available, experimentally-based energy levels and radiative data are utilized.
Photoionization cross-sections
Cross-sections from Hartree-Fock calculations are utilized for both valence-shell and inner-shell transitions. Radiative recombination rate coefficients are calculated from the photoionization cross-sections.
Electron collisional excitation and ionization cross-sections
Distorted-wave (DW) calculations are performed to generate cross-sections and rate coefficients.
Autoionization rates
Configuration interaction (CI) calculations are performed to generate autoionization rates.
Dielectronic recombination (DR) rate coefficients
For dielectronic recombination related to K-shell spectra (Li-like ions and higher), electron capture rates are computed using autoionization rates and the detailed balance relationship. For lower ionization stages, total dielectronic recombination rate coefficients are based on semi-empirical models.

Applications

The ATBASE database has been used extensively in a variety of plasma physics studies, including:
	Simulation of spectral properties and ionization dynamics of laser-produced plasmas;
	Analysis of spectra of radiatively-heated materials in laser and high-current Z-pinch experiments;
	The ionization dynamics and spectral properties of plasmas heated by energetic ions and non-Maxwellian electron distributions;
	The formation of inner-shell Ka emission spectra from materials heated by intense ion beams;
	The analysis of high-resolution Chandra spectra from high-luminosity stars;
	The ionization structure of stellar winds, and their radiative properties at UV, EUV, and X-ray wavelengths.