Electronic transition dipole moment functions of the first singlet Sigma gerade plus state of the Lithium dimer - Open Research Data - Bridge of Knowledge

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Electronic transition dipole moment functions of the first singlet Sigma gerade plus state of the Lithium dimer

Description

Electronic transition dipole moment functions (ETDMF) of the first singlet Sigma gerade plus (1sSg+) state have been calculated for the Lithium dimer. ETDMFs are needed in understanding processes like photodissociation, photoassociation, cooling, and trapping of molecules. The results of the five ETDMFs have been obtained by the nonrelativistic multireference configuration interaction (MRCI) method used with pseudopotentials describing the interaction of valence electrons with atomic cores. In this approach, only the valence electrons of the Li atom were treated explicitly. The core polarization potential has been also applied in calculations. All computations were performed by means of the MOLPRO program package. In all internuclear regions, presented ETDMFs reasonably agree with available previously calculated and measured results.

The dataset is arranged in six columns. ⟨Ψ_f | DMX or DMY or DMZ | Ψ_i⟩ is the x or y or z component of the electronic dipole moment between the initial state Ψ_i and the final state Ψ_f of the diatomic Lithium molecule. The first column contains distances in Bohr radius units [a0] between Lithium atoms. The consecutive five columns contain ETDMFs calculated for corresponding distances. All values are given in atomic units. All ETDMFs are provided as functions of the internuclear distance R, ranging from 2 to 90 [a0].

The symbols used for describing the initial (Ψ_i) and final (Ψ_f) states (for example 2tPg or 4sSu+) of the Li2 molecule are the following:

  • 1 or 2 or ... - the electronic initial or final state number;
  • s or t - singlet or triplet state;
  • S or P or D - Sigma, Pi or Delta state;
  • g or u  - gerade or ungerade state;
  • + is connected only with Sigma states.

Dataset file

1sSg+.dat
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File details

License:
Creative Commons: by-nc-sa 4.0 open in new tab
CC BY-NC-SA
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Details

Year of publication:
2013
Verification date:
2020-12-17
Dataset language:
English
Fields of science:
  • physical sciences (Natural sciences)
DOI:
DOI ID 10.34808/dem0-ez52 open in new tab
Series:
Verified by:
Gdańsk University of Technology

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