Litcius/Paper detail

Efficient Computation of Two-Electron Reduced Density Matrices via Selected Configuration Interaction

J. P. Coe, Andrés Moreno Carrascosa, Mats Simmermacher, Adam Kirrander, Martin J. Paterson

2022Journal of Chemical Theory and Computation16 citationsDOIOpen Access PDF

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.

Topics & Concepts

Wave functionConfiguration interactionComputationComputer scienceFull configuration interactionExcited stateAlgorithmPhysicsAtomic physicsAdvanced Chemical Physics StudiesMolecular Junctions and NanostructuresPhotochemistry and Electron Transfer Studies