Riadh Dardouri scite author profile

The diabatic and adiabatic potential-energy curves and permanent and transition dipole moments of the highly excited states of the CaH(+) molecular ion have been computed as a function of the internuclear distance R for a large and dense grid varying from 2.5 to 240 au. The adiabatic results are determined by an ab initio approach involving a nonempirical pseudopotential for the Ca core, operatorial core-valence correlation, and full valence configuration interaction. The molecule is thus treated as a two-electron system. The diabatic potential energy curves have been calculated using an effective metric combined to the effective Hamiltonian theory. The diabatic potential-energy curves and their permanent dipole moments for the (1)∑(+) symmetry are examined and corroborate the high imprint of the ionic state in the adiabatic representation. Taking the benefit of the diabatization approach, correction of hydrogen electron affinity was taken into account leading to improved results for the adiabatic potentials but also the permanent and transition electric dipole moments.

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Theoretical study of the electronic structure of LiX and NaX (X = Rb, Cs) molecules

Dardouri

Issa

Oujia

et al. 2011

Int J of Quantum Chemistry

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International audienceAdiabatic potential energy, spectroscopic constants, dipole moments, and vibrational levels have been computed for the lowest electronic states of alkali dimers LiX and NaX (X = Rb, Cs). Calculations have been carried with the use of an ab initio approach with core-potential potentials and full-valence configuration. Thus, these systems are treated as two-electron systems. A good agreement is obtained for some lowest states of the molecules studied with available theoretical works. The existence of numerous avoided crossings between electronic states for 1Σ symmetries is related to the charge-transfer process in each molecule between its two ionic systems (Li+X−, Li−X+) and (Na+X−, Na−X+)

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Ab Initio Investigation of Electronic Properties of the Magnesium Hydride Molecular Ion

et al. 2013

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In this work, adiabatic potential energy curves, spectroscopic constants, dipole moments, and vibrational levels for numerous electronic states of magnesium hydride molecular ion (MgH(+)) are computed. These properties are determined by the use of an ab initio method involving a nonempirical pseudopotential for the magnesium core (Mg), the core polarization potential (CPP), the l-dependent cutoff functions and the full valence configuration interaction (FCI). The molecular ion is thus treated as a two-electron system. Our calculations on the MgH(+) molecular ion extend previous theoretical works to numerous electronic excited states in the various symmetries. A good agreement with the available theoretical and experimental works is obtained for the spectroscopic constants, the adiabatic potential energy curves, and the dipole moments for the lowest states of MgH(+).

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Theoretical study of the electronic structure of KLi molecule: Adiabatic and diabatic potential energy curves and dipole moments

et al. 2012

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Ab Initio Diabatic energies and dipole moments of the electronic states of RbLi molecule

et al. 2013

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For all states dissociating below the ionic limit Li(-) Rb(+) , we perform a diabatic study for (1) Σ(+) electronic states dissociating into Rb (5s, 5p, 4d, 6s, 6p, 5d, 7s, 4f) + Li (2s, 2p, 3s). Furthermore, we present the diabatic results for the 1-11 (3) σ, 1-8 (1,3) Π, and 1-4 (1,3) Δ states. The present calculations on the RbLi molecule are complementary to previous theoretical work on this system, including recently observed electronic states that had not been calculated previously. The calculations rely on ab-initio pseudopotential, core polarization potential operators for the core-valence correlation and full valence configuration interaction approaches, combined to an efficient diabatization procedure. For the low-lying states, diabatic potentials and permanent dipole moments are analyzed, revealing the strong imprint of the ionic state in the (1) Σ(+) adiabatic states. The transition dipole moment is used to evaluate the radiative lifetimes of the vibrational levels trapped in the 2 (1) Σ(+) excited states for the first time. In addition to the bound-bound contribution, the bound-free term has been evaluated using the Franck-Condon approximation and also exactly added to the total radiative lifetime.

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Riadh Dardouri

Ab Initio Adiabatic and Diabatic Energies and Dipole Moments of the CaH⁺ Molecular Ion

Theoretical study of the electronic structure of LiX and NaX (X = Rb, Cs) molecules

Ab Initio Investigation of Electronic Properties of the Magnesium Hydride Molecular Ion

Theoretical study of the electronic structure of KLi molecule: Adiabatic and diabatic potential energy curves and dipole moments

Ab Initio Diabatic energies and dipole moments of the electronic states of RbLi molecule

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Riadh Dardouri

Ab Initio Adiabatic and Diabatic Energies and Dipole Moments of the CaH+ Molecular Ion

Theoretical study of the electronic structure of LiX and NaX (X = Rb, Cs) molecules

Ab Initio Investigation of Electronic Properties of the Magnesium Hydride Molecular Ion

Theoretical study of the electronic structure of KLi molecule: Adiabatic and diabatic potential energy curves and dipole moments

Ab Initio Diabatic energies and dipole moments of the electronic states of RbLi molecule

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Product

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Ab Initio Adiabatic and Diabatic Energies and Dipole Moments of the CaH⁺ Molecular Ion