The Potential Energy Surface of CO2 from an algebraic approach

Sánchez Castellanos, M.; Lemus, R.; Carvajal Zaera, Miguel; Pérez Bernal, Francisco

doi:10.1002/qua.24141

Autor

Sánchez Castellanos, M.; Lemus, R.; Carvajal Zaera, Miguel ; Pérez Bernal, Francisco
Fecha de publicación

2012-05
Editor

Wiley-Blackwell
Cita bibliográfica

Sánchez Castellanos, M., Lemus, R., Carvajal Zaera, M., Pérez Bernal, F.: "The Potential Energy Surface of CO2 from an Algebraic Approach". International Journal of Quantum Chemistry . Vol. 112, n. 21, pág. 3498–3507 (2012). ISSN 0020-7608
Resumen

The potential energy surface (PES) for the ground state of the 12C 16O2 molecule is estimated through an algebraic approach based on unitary groups.It is shownthat a purely algebraic approachmay lead to a unphysical surface even when the fit turns out to be of a remarkable high quality.The vibrational description is obtained in the framework of the U(2) × U(3) × U(2) model, where the U(2) algebras are associated with the CO bond stretching and the U(3) algebra with the OCO bending. The algebraic representation of the Hamiltonian is obtained through the connection between the coordinates and momenta and the generators of the dynamical algebra. It is shown that through this connection it is possible to choose the appropriate set of spectroscopic parameters leading to the right PES. The fit from which the PES is estimated involves 101 energy levels with an standard deviation of RMS = 0.53 cm−1.
URI

http://hdl.handle.net/10272/6569

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The Potential Energy Surface of CO2 from an algebraic approach

Autor

Sánchez Castellanos, M.; Lemus, R.; Carvajal Zaera, Miguel

; Pérez Bernal, Francisco

Fecha de publicación

2012-05

Editor

Wiley-Blackwell

Cita bibliográfica

Sánchez Castellanos, M., Lemus, R., Carvajal Zaera, M., Pérez Bernal, F.: "The Potential Energy Surface of CO2 from an Algebraic Approach". International Journal of Quantum Chemistry . Vol. 112, n. 21, pág. 3498–3507 (2012). ISSN 0020-7608

Resumen

The potential energy surface (PES) for the ground state of the 12C 16O2 molecule is estimated through an algebraic approach based on unitary groups.It is shownthat a purely algebraic approachmay lead to a unphysical surface even when the fit turns out to be of a remarkable high quality.The vibrational description is obtained in the framework of the U(2) × U(3) × U(2) model, where the U(2) algebras are associated with the CO bond stretching and the U(3) algebra with the OCO bending. The algebraic representation of the Hamiltonian is obtained through the connection between the coordinates and momenta and the generators of the dynamical algebra. It is shown that through this connection it is possible to choose the appropriate set of spectroscopic parameters leading to the right PES. The fit from which the PES is estimated involves 101 energy levels with an standard deviation of RMS = 0.53 cm−1.

URI

http://hdl.handle.net/10272/6569

Fichero	Tamaño	Formato	Ver	Descripción
The_potential_energy.pdf	305.4Kb	PDF	Ver/	versión pre-print

Fichero	Tamaño	Formato	Ver	Descripción
The_potential_energy.pdf	305.4Kb	PDF	Ver/	versión pre-print

Este ítem aparece en la(s) siguiente(s) colección(ones)

DFA - Artículos [178]