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Article Abstract
A theoretical electronic structure calculation of the ZrH molecule is conducted via Complete Active Space Self-Consistent Field and the Multireference Configuration Interaction with Davidson correction calculation (CASSCF/MRCI + Q). The adiabatic potential energy curves (PECs) for the 53 low-lying electronic states in the representations of Λ and Ω for ZrH molecule have been investigated along with the internuclear distance R, the harmonic frequency ω, the dipole moment μ, the rotational constant B and the electronic transition energy with respect to the ground state T. are calculated. By using the canonical function approach, the vibrational energy E, the rotational constants B, the centrifugal constants D, and the turning points R and R have been calculated up to the vibrational level v = 18. Based on the investigated data, the Franck-Condon factors, the Einstein coefficient, the radiative lifetimes, and the vibrational branching ratio for the transitions XΔ - (1)Φ, XΔ - (1)Φ, XΔ - (1)Π have been calculated. The large value of the radiative lifetimes in (ms) for these transitions proves that this molecule is not a good candidate for direct laser cooling.
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| http://dx.doi.org/10.3389/fchem.2025.1603873 | DOI Listing |
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