Abstract

A multireference second-order perturbation theory approach based on the generalized active space self-consistent-field (GASSCF) wave function is presented. Compared with the complete active space (CAS) and restricted active space (RAS) wave functions, GAS wave functions are more flexible and can employ larger active spaces and/or different truncations of the configuration interaction expansion. With GASSCF, one can explore chemical systems that are not affordable with either CASSCF or RASSCF. Perturbation theory to second order on top of GAS wave functions (GASPT2) has been implemented to recover the remaining electron correlation. The method has been benchmarked by computing the chromium dimer ground-state potential energy curve. These calculations show that GASPT2 gives results similar to CASPT2 even with a configuration interaction expansion much smaller than the corresponding CAS expansion.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
The restricted active space followed by second-order perturbation theory method: Theory and application to the study of CuO2 and Cu2O2 systems
Per Åke Malmqvist ... Laura Gagliardi
The Journal of Chemical Physics | VOL. 128
Per Åke Malmqvist, et. al.Per Åke Malmqvist ... Laura Gagliardi
28 May 2008
A Density Functional Theory and ab Initio Investigation of the Oxidation Reaction of CO by IO Radicals.
Sarah Khanniche ... Laurent Cantrel
The journal of physical chemistry. A | VOL. 120
Sarah Khanniche, et. al.Sarah Khanniche ... Laurent Cantrel
03 Mar 2016
Electronic Excited States from the Adiabatic-Connection Formalism with Complete Active Space Wave Functions.
Ewa Pastorczak ... Katarzyna Pernal
The Journal of Physical Chemistry Letters | VOL. 9
Ewa Pastorczak, et. al.Ewa Pastorczak ... Katarzyna Pernal
07 Sep 2018
Correlation Energy from the Adiabatic Connection Formalism for Complete Active Space Wave Functions.
Ewa Pastorczak ... Katarzyna Pernal
Journal of Chemical Theory and Computation | VOL. 14
Ewa Pastorczak, et. al.Ewa Pastorczak ... Katarzyna Pernal
22 May 2018
View more papers

More From: Journal of chemical theory and computation

Paper Title
Journal
Date
Author
Improving the Computational Efficiency of the Adaptive Biasing Force Sampling by Leveraging the Telescopic-Solvation Scheme.
Diship Srivastava ... Niladri Patra
Journal of chemical theory and computation | VOL. -
Diship Srivastava, et. al.Diship Srivastava ... Niladri Patra
07 Dec 2024
Reducing Numerical Precision Requirements in Quantum Chemistry Calculations.
William Dawson ... Takahito Nakajima
Journal of chemical theory and computation | VOL. -
William Dawson, et. al.William Dawson ... Takahito Nakajima
07 Dec 2024
Interplay between Energy and Entropy Mediates Ambimodal Selectivity of Cycloadditions.
Wook Shin ... Zhongyue J Yang
Journal of chemical theory and computation | VOL. -
Wook Shin, et. al.Wook Shin ... Zhongyue J Yang
06 Dec 2024
ADAPT-QSCI: Adaptive Construction of an Input State for Quantum-Selected Configuration Interaction.
Yuya O Nakagawa ... Yu-Ya Ohnishi
Journal of chemical theory and computation | VOL. -
Yuya O Nakagawa, et. al.Yuya O Nakagawa ... Yu-Ya Ohnishi
06 Dec 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.