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Rotational aspects of short-pulse population transfer in diatomic molecules
Y. B. Band
*
, S. Kallush,
Roi Baer
*
Corresponding author for this work
Institute of Chemistry
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peer-review
14
Scopus citations
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Keyphrases
Short Pulse
100%
Population Transfer
100%
Diatomic Molecules
100%
Selective Population Transfer
100%
Electronic States
50%
Light-induced
50%
Time-dependent Density Functional Theory
50%
Multiphoton Ionization
50%
Laser Pulse
50%
Excited Electronic States
50%
Rotation Time
50%
Rovibrational States
50%
Transfer Scheme
50%
Ns Laser
50%
Induced Potential
50%
Rotational Degrees of Freedom
50%
Ionization Rate
50%
Chemistry
Diatomic Molecule
100%
Selective Population Transfer
100%
Electronic State
50%
Time-Dependent Density Functional Theory
50%
Laser Pulse
50%
Vibrational State
50%
Multiphoton Ionization (MPI)
50%
Excited Electronic State
50%
Engineering
Rotational
100%
Electronic State
100%
Degree of Freedom
50%
Multiphoton Ionization
50%
Ionization Rate
50%
Material Science
Density
100%
Laser Pulse
100%