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Potential energy curves of low-lying states of the CN molecule taking into account relativistic and quantum-electrodynamic corrections

Russian version

Dulaev N. K.^1,2, Tupitsyn I. I.¹, Usov D. P.¹, Kozhedub Y. S.¹, Ryzhkov A. M.^1,2, Savelyev I. M.¹, Shabaev V. M.^1,2

¹St. Petersburg State University, St. Petersburg, Russia
²Konstantinov Petersburg Nuclear Physics Institute, National Research Center Kurchatov Institute, Gatchina, Russia

Email: st069071@student.spbu.ru

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Abstract
References
Статистика просмотров

By the method of multireference configuration-interaction in the basis of Dirac-Fock-Sturm orbitals, a relativistic first-principles calculation of the potential energy curves of low-lying X^2Σ⁺_1/2 and A^2_1/2 states of the CN molecule in the range of internuclear distances 0.8-8.0 Angstrem has been performed. Using the method of the model Lamb shift operator, quantum-electrodynamic corrections to the total energy of the molecule for the given states have also been calculated. The contribution of quantum-electrodynamic corrections to the equilibrium internuclear distance R_AB^e, dissociation energy D_e, and vibrational constant ω_e of the ground state of the CN molecule is considered. Keywords: relativistic effects, correlation effects, quantum electrodynamic corrections, radical CN.

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