Ab initio calculations on the X(1)A(') and A(1)A('') states of HPO and Franck-Condon simulation of the single vibronic level emission spectra of HPO and DPO
Ab initio calculations on the X(1)A(') and A(1)A('') states of HPO and Franck-Condon simulation of the single vibronic level emission spectra of HPO and DPO
Minimum-energy geometries and relative electronic energies of the 1A and à 1A states of HPO have been computed employing the coupled-cluster single-double plus perturbative triple excitations {RCCSD(T)} and/or complete-active-space self-consistent-field (CASSCF) multireference internally contracted configuration interaction (MRCI) methods with basis sets of up to the augmented correlation-consistent polarized-valence quintuple-zeta (aug-cc-pV5Z) quality. In addition, RCCSD(T)/aug-cc-pVQZ and CASSCF/MRCI/aug-cc-pVQZ potential energy functions, anharmonic vibrational wave functions, and energies involving all three vibrational modes for both electronic states of HPO and DPO, and Franck-Condon factors between the two electronic states, which allow for Duschinsky rotation and anharmonicity, were computed. Computed Franck-Condon factors were then used to simulate single vibronic level (SVL) emission spectra recently reported by Tackett and Clouthier [J. Chem. Phys. 117, 10604 (2002)]. Excellent agreement between the simulated and observed spectra was obtained for the à 1A(1,0,0) 1A SVL emission of HPO and DPO, when the best estimated ab initio geometries of the two states, which include contributions from core correlation and extrapolation to the complete basis set limit, were used in the simulation, suggesting that the best estimated ab initio geometry of the à 1A state of HPO, particularly the bond angle of 94.5°, is more reliable than the available experimentally derived geometry. A discussion on the geometrical parameters derived from rotational constants obtained from the rotational analysis of a high-resolution spectrum and from Franck-Condon simulation of the vibrational structure of an electronic spectrum is given.
argon, bands, atoms aluminum, energies, gaussian-basis sets, correlated molecular calculations
214307-214317
Lee, Edmond P.F.
f47c6d5d-2d1f-4f03-a3ff-03658812d80b
Mok, Daniel K.W.
49a4e516-0e71-4f59-a3ec-bd607b47ef33
Chau, Foo-Tim
e15ec394-d11b-4cbe-91f3-cdac037d9d0e
Dyke, John M.
46393b45-6694-46f3-af20-d7369d26199f
6 December 2007
Lee, Edmond P.F.
f47c6d5d-2d1f-4f03-a3ff-03658812d80b
Mok, Daniel K.W.
49a4e516-0e71-4f59-a3ec-bd607b47ef33
Chau, Foo-Tim
e15ec394-d11b-4cbe-91f3-cdac037d9d0e
Dyke, John M.
46393b45-6694-46f3-af20-d7369d26199f
Lee, Edmond P.F., Mok, Daniel K.W., Chau, Foo-Tim and Dyke, John M.
(2007)
Ab initio calculations on the X(1)A(') and A(1)A('') states of HPO and Franck-Condon simulation of the single vibronic level emission spectra of HPO and DPO.
Journal of Chemical Physics, 127 (21), .
(doi:10.1063/1.2790892).
(PMID:18067355)
Abstract
Minimum-energy geometries and relative electronic energies of the 1A and à 1A states of HPO have been computed employing the coupled-cluster single-double plus perturbative triple excitations {RCCSD(T)} and/or complete-active-space self-consistent-field (CASSCF) multireference internally contracted configuration interaction (MRCI) methods with basis sets of up to the augmented correlation-consistent polarized-valence quintuple-zeta (aug-cc-pV5Z) quality. In addition, RCCSD(T)/aug-cc-pVQZ and CASSCF/MRCI/aug-cc-pVQZ potential energy functions, anharmonic vibrational wave functions, and energies involving all three vibrational modes for both electronic states of HPO and DPO, and Franck-Condon factors between the two electronic states, which allow for Duschinsky rotation and anharmonicity, were computed. Computed Franck-Condon factors were then used to simulate single vibronic level (SVL) emission spectra recently reported by Tackett and Clouthier [J. Chem. Phys. 117, 10604 (2002)]. Excellent agreement between the simulated and observed spectra was obtained for the à 1A(1,0,0) 1A SVL emission of HPO and DPO, when the best estimated ab initio geometries of the two states, which include contributions from core correlation and extrapolation to the complete basis set limit, were used in the simulation, suggesting that the best estimated ab initio geometry of the à 1A state of HPO, particularly the bond angle of 94.5°, is more reliable than the available experimentally derived geometry. A discussion on the geometrical parameters derived from rotational constants obtained from the rotational analysis of a high-resolution spectrum and from Franck-Condon simulation of the vibrational structure of an electronic spectrum is given.
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Published date: 6 December 2007
Keywords:
argon, bands, atoms aluminum, energies, gaussian-basis sets, correlated molecular calculations
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Chemistry
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Local EPrints ID: 174163
URI: http://eprints.soton.ac.uk/id/eprint/174163
ISSN: 0021-9606
PURE UUID: 6c0fe8d9-03ae-4ca0-88e0-b8c441f19417
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Date deposited: 11 Feb 2011 08:33
Last modified: 15 Mar 2024 02:35
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Author:
Edmond P.F. Lee
Author:
Daniel K.W. Mok
Author:
Foo-Tim Chau
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