Abstract

We create an approach to efficiently calculate two-electron reduced density matrices (2-RDMs) using selected configuration interaction wavefunctions. This is demonstrated using the specific example of Monte Carlo configuration interaction (MCCI). The computation of the 2-RDMs is accelerated by using ideas from fast implementations of full configuration interaction (FCI) and recent advances in implementing the Slater-Condon rules using hardware bitwise operations. This method enables a comparison of MCCI and truncated CI 2-RDMs with FCI values for a range of molecules, which includes stretched bonds and excited states. The accuracy in energies, wavefunctions, and 2-RDMs is seen to exhibit a similar behavior. We find that MCCI can reach sufficient accuracy of the 2-RDM using significantly fewer configurations than truncated CI, particularly for systems with strong multireference character.

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
Monte Carlo configuration interaction applied to multipole moments, ionization energies, and electron affinities
Jeremy P Coe ... Daniel J Taylor
Journal of Computational Chemistry | VOL. 34
Jeremy P Coe, et. al.Jeremy P Coe ... Daniel J Taylor
19 Jan 2013
Development of Monte Carlo configuration interaction: Natural orbitals and second-order perturbation theory
J P Coe ... M J Paterson
The Journal of Chemical Physics | VOL. 137
J P Coe, et. al.J P Coe ... M J Paterson
26 Nov 2012
Active Learning Assisted MCCI to Target Spin States.
Koushik Seth ... Debashree Ghosh
Journal of chemical theory and computation | VOL. 19
Koushik Seth, et. al.Koushik Seth ... Debashree Ghosh
06 Jan 2023
Calculations of potential energy surfaces using Monte Carlo configuration interaction
Jeremy P Coe ... Daniel J Taylor
The Journal of Chemical Physics | VOL. 137
Jeremy P Coe, et. al.Jeremy P Coe ... Daniel J Taylor
21 Nov 2012
View more papers

More From: Journal of Chemical Theory and Computation

Paper Title
Journal
Date
Author
Acceleration of Reaction Space Projector Analysis Using Combinatorial Optimization: Application to Organic Chemical Reactions.
Lihao Qu ... Tetsuya Taketsugu
Journal of chemical theory and computation | VOL. -
Lihao Qu, et. al.Lihao Qu ... Tetsuya Taketsugu
09 Dec 2024
Leveraging a Separation of States Method for Relative Binding Free Energy Calculations in Systems with Trapped Waters.
Swapnil Wagle ... David L Mobley
Journal of chemical theory and computation | VOL. -
Swapnil Wagle, et. al.Swapnil Wagle ... David L Mobley
09 Dec 2024
Bootstrap Embedding for Molecules in Extended Basis Sets.
Henry K Tran ... Troy Van Voorhis
Journal of chemical theory and computation | VOL. -
Henry K Tran, et. al.Henry K Tran ... Troy Van Voorhis
09 Dec 2024
Nonunitary Coupled Cluster Enabled by Midcircuit Measurements on Quantum Computers.
Alexandre Fleury ... Isaac H Kim
Journal of chemical theory and computation | VOL. -
Alexandre Fleury, et. al.Alexandre Fleury ... Isaac H Kim
08 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.