Litcius/Paper detail

Spin Purification in Full-CI Quantum Monte Carlo via a First-Order Penalty Approach

Oskar Weser, Niklas Liebermann, Daniel Kats, Ali Alavi, Giovanni Li Manni

2022The Journal of Physical Chemistry A19 citationsDOIOpen Access PDF

Abstract

] cluster. In the absence of a robust spin adaptation/purification technique, both applications would be unattainable by Slater determinant based ground state methods, with any starting wave function collapsing into the higher-spin ground state during the optimization. This strategy can be coupled to other algorithms that use the Slater determinant based FCIQMC algorithm as configuration interaction eigensolver, including the Stochastic Generalized Active Space, the similarity-transformed FCIQMC, the tailored-CC, and second-order perturbation theory approaches. Moreover, in contrast to the GUGA-FCIQMC technique, this strategy features both spin projection and total spin adaptation, making it appealing when solving anisotropic Hamiltonians. It also provides spin-resolved reduced density matrices, important for the investigation of spin-dependent properties in polynuclear transition metal clusters, such as the hyperfine-coupling constants.

Topics & Concepts

Quantum Monte CarloCoupled clusterWave functionSpin (aerodynamics)Full configuration interactionGround stateMonte Carlo methodPhysicsStatistical physicsSpin statesPerturbation theory (quantum mechanics)Quantum mechanicsConfiguration interactionMathematicsExcited stateCondensed matter physicsMoleculeThermodynamicsStatisticsAdvanced Condensed Matter PhysicsPhysics of Superconductivity and MagnetismMagnetism in coordination complexes