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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 109, 2011 - Issue 5
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Research Articles

Accurate multimode vibrational calculations using a B-spline basis: theory, tests and application to dioxirane and diazirinone

Daniele Toffoli Department of Chemistry, Middle East Technical University, 06531 Ankara, TurkeyCorrespondence[email protected]
,
Manuel Sparta The Lundbeck Foundation Center for Theoretical Chemistry, Department of Chemistry, University of Aarhus, Langelandsgade 140, DK–8000 Aarhus C, Denmark
&
Ove Christiansen The Lundbeck Foundation Center for Theoretical Chemistry, Department of Chemistry, University of Aarhus, Langelandsgade 140, DK–8000 Aarhus C, Denmark
Pages 673-685 | Received 11 Jul 2010, Accepted 02 Dec 2010, Published online: 03 Mar 2011
 
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Abstract

The use of B-spline basis sets is explored in the context of a vibrational program for automatic potential energy surface (PES) construction and multimode anharmonic vibrational wave function calculation. Results are compared with calculations using localized Gaussians and harmonic oscillator basis functions. Potential energy surfaces are constructed in an iterative fashion using a recently developed adaptive density-guided approach. The basis set requirements for an accurate representation of the vibrational wave functions are met by both B-spline basis sets as well as the well-known distributed Gaussian basis sets. Furthermore, the property of minimal support of the B-spline functions makes the use of B-spline basis more advantageous compared to harmonic oscillator basis functions, when combined with the adaptive procedure for PES construction used in this work. The methodology is tested for model potentials and water and subsequently applied to study vibrational states of dioxirane and diazirinone. The latter have proven to be elusive to experimental characterization and high level vibrational calculations based on accurate PES may offer a guidance for the experimental work.

Acknowledgements

D.T. acknowledges partial support from Middle East Technical University (project code: BAP-01-03-2009-101). This work has also been supported by the Lundbeck Fundation, the Danish national research foundation, DCSC (Danish Center for Super Computing), and EUROHORCs through a EURYI award.

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