Mehmet Taşer scite author profile

The density functional theory (DFT) at B3LYP/6-31G(d) level has been utilized to achieve the electric dipole moment $\left( \mu \right),$static dipole polarizability $\left( \alpha \right)$and first hyperpolarizability $\left( \beta \right)$values for ferulic acid (1) and chenodeoxycholic acid (2). The time-dependent Hartree-Fock (TDHF) technique as a powerful quantum chemical method has been implemented to reveal the dynamic $\alpha ,\,\beta $and third-order hyperpolarizabilities $\left( \gamma \right)$of the examined compounds. Our computational conclusions have been compared with the results of similar materials in the literature. The first and second frontier molecular orbitals (MOs) and their band gaps have also been investigated by means of DFT.

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Transition probabilities and radiative lifetimes of levels in F I

Çelik

Doğan

Ateş

et al. 2012

Atomic Data and Nuclear Data Tables

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Oscillator strengths of allowed transitions for O III

Ateş

Çelik

Tekeli

et al. 2012

Atomic Data and Nuclear Data Tables

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Mehmet Taşer

Electric quadrupole transition probabilities for singly ionized magnesium

Transition probabilities, oscillator strengths and lifetimes for singly ionized magnesium

Theoretical Diagnostics of Second and Third-order Hyperpolarizabilities of Several Acid Derivatives

Transition probabilities and radiative lifetimes of levels in F I

Oscillator strengths of allowed transitions for O III

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