Accurate ab initio calculations of RaF electronic structure appeal to more laser-spectroscopical measurements

Recently, a breakthrough has been achieved in laser-spectroscopic studies of short-lived radioactive compounds with the first measurements of the radium monofluoride molecule (RaF) UV/vis spectra. We report results from high-accuracy ab initio calculations of the RaF electronic structure for ground...

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Veröffentlicht in:	The Journal of chemical physics 2022-01, Vol.156 (4), p.044306-044306
Hauptverfasser:	Zaitsevskii, Andrei, Skripnikov, Leonid V., Mosyagin, Nikolai S., Isaev, Timur, Berger, Robert, Breier, Alexander A., Giesen, Thomas F.
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Sprache:	eng
Schlagworte:	Electron states Electronic structure Mathematical analysis Physics Radium
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container_end_page	044306
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container_title	The Journal of chemical physics
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creator	Zaitsevskii, Andrei Skripnikov, Leonid V. Mosyagin, Nikolai S. Isaev, Timur Berger, Robert Breier, Alexander A. Giesen, Thomas F.
description	Recently, a breakthrough has been achieved in laser-spectroscopic studies of short-lived radioactive compounds with the first measurements of the radium monofluoride molecule (RaF) UV/vis spectra. We report results from high-accuracy ab initio calculations of the RaF electronic structure for ground and low-lying excited electronic states. Two different methods agree excellently with experimental excitation energies from the electronic ground state to the 2Π1/2 and 2Π3/2 states, but lead consistently and unambiguously to deviations from experimental-based adiabatic transition energy estimates for the 2Σ1/2 excited electronic state, and show that more measurements are needed to clarify spectroscopic assignment of the 2Δ state.
doi_str_mv	10.1063/5.0079618
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subjects	Electron states Electronic structure Mathematical analysis Physics Radium
title	Accurate ab initio calculations of RaF electronic structure appeal to more laser-spectroscopical measurements
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