Using the semi-classical perturbation approach in the impact approximation, full width at half maximum and shift have been determined for eight spectral lines of Ar VII, for broadening by electron-, proton-, and He III-impacts. The results are provided for temperatures from 20,000 K to 500,000 K, and for an electron density of 10 18 cm − 3 . The obtained results will be included in the STARK-B database, which is also in the virtual atomic and molecular data center (VAMDC)
Using the semiclassical perturbation formalism, we have calculated electron-, proton-, and ionize...
Using a semiclassical approach, we have calculated electron-, proton-, and ionized helium-impact l...
International audienceIn order to provide Stark broadening data in X-ray and far UV wavelength regio...
Using the semi-classical perturbation approach in the impact approximation, full width at half maxim...
Stark broadening parameters, full width at half maximum of spectral line and shift, have been calcul...
Using the semi-classical perturbation approach in the impact approximation, full width at half maxim...
Using the semi-classical perturbation approach in the impact approximation, full width at half maxim...
We present in this paper the results of a theoretical study of electron impact broadening for severa...
In order to complete data on Stark broadening parameters for Ar I line in the visible spectrum, we d...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
Using a semiclassical approach, we have calculated electron−, proton−, and He III−impact line wid...
Electron-, proton-, and ionized helium-impact broadening parameter tables for In II spectral lines, ...
Using the semiclassical perturbation formalism, we have calculated electron-, proton-, and ionize...
Using a semiclassical approach, we have calculated electron-, proton-, and ionized helium-impact l...
International audienceIn order to provide Stark broadening data in X-ray and far UV wavelength regio...
Using the semi-classical perturbation approach in the impact approximation, full width at half maxim...
Stark broadening parameters, full width at half maximum of spectral line and shift, have been calcul...
Using the semi-classical perturbation approach in the impact approximation, full width at half maxim...
Using the semi-classical perturbation approach in the impact approximation, full width at half maxim...
We present in this paper the results of a theoretical study of electron impact broadening for severa...
In order to complete data on Stark broadening parameters for Ar I line in the visible spectrum, we d...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
International audienceIn order to complete data on Stark broadening parameters for Ar I line in the ...
Using a semiclassical approach, we have calculated electron−, proton−, and He III−impact line wid...
Electron-, proton-, and ionized helium-impact broadening parameter tables for In II spectral lines, ...
Using the semiclassical perturbation formalism, we have calculated electron-, proton-, and ionize...
Using a semiclassical approach, we have calculated electron-, proton-, and ionized helium-impact l...
International audienceIn order to provide Stark broadening data in X-ray and far UV wavelength regio...
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