We report on our work program for the calculation of atomic data for astrophysical and magnetic fusion diagnostic plasma modelling. We restrict ourselves to electron-impact excitation. We look at recent work with the R-matrix method, including development of the Dirac R-matrix with pseudo-states method, as well as a new implementation of the distorted wave method within the AUTOSTRUCTURE cod
Trends and focii of interest in atomic modelling and data are identified in connection with recent o...
We have carried out a large R-matrix with pseudostates (RMPS) calculation of the electron-impact exc...
Context. Accurate electron collisional data are required for the analysis of the Fe XIX astrophysica...
Plasma models built on extensive atomic data are essential to interpret the observed X-ray spectra. ...
We present new large-scale R-matrix (up to n = 4) and distorted wave (up to n = 6) scattering calcul...
We present new large-scale R-matrix (up to n = 4) and distorted wave (up to n = 6) scattering calcul...
R-matrix calculations of electron impact excitations have been done for several isoelectronic sequen...
We present sets of new atomic data for astrophysical and fusion plasma diagnostics. We calculate ele...
We present results for the electron-impact excitation of N-like Fe as part of the RmaX network. R-ma...
Context. Astrophysical plasma codes are built on atomic databases. In the current atomic databases, ...
We present results for the electron-impact excitation of N-like Fe as part of the RmaX network. R-m...
An accurate knowledge of atomic collision processes is important for a better understanding of many ...
With construction of ITER progressing and existing tokamaks carrying-out ITER-relevant experiments, ...
Our research program is designed to carry out state-of-the-art atomic physics calculations crucial t...
We describe the computer codes, developed at Vilnius University, for the calculation of electron-imp...
Trends and focii of interest in atomic modelling and data are identified in connection with recent o...
We have carried out a large R-matrix with pseudostates (RMPS) calculation of the electron-impact exc...
Context. Accurate electron collisional data are required for the analysis of the Fe XIX astrophysica...
Plasma models built on extensive atomic data are essential to interpret the observed X-ray spectra. ...
We present new large-scale R-matrix (up to n = 4) and distorted wave (up to n = 6) scattering calcul...
We present new large-scale R-matrix (up to n = 4) and distorted wave (up to n = 6) scattering calcul...
R-matrix calculations of electron impact excitations have been done for several isoelectronic sequen...
We present sets of new atomic data for astrophysical and fusion plasma diagnostics. We calculate ele...
We present results for the electron-impact excitation of N-like Fe as part of the RmaX network. R-ma...
Context. Astrophysical plasma codes are built on atomic databases. In the current atomic databases, ...
We present results for the electron-impact excitation of N-like Fe as part of the RmaX network. R-m...
An accurate knowledge of atomic collision processes is important for a better understanding of many ...
With construction of ITER progressing and existing tokamaks carrying-out ITER-relevant experiments, ...
Our research program is designed to carry out state-of-the-art atomic physics calculations crucial t...
We describe the computer codes, developed at Vilnius University, for the calculation of electron-imp...
Trends and focii of interest in atomic modelling and data are identified in connection with recent o...
We have carried out a large R-matrix with pseudostates (RMPS) calculation of the electron-impact exc...
Context. Accurate electron collisional data are required for the analysis of the Fe XIX astrophysica...
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