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Paper detail

Approximate analytical gradients and nonadiabatic couplings for the state-average density matrix renormalization group self-consistent field method

We present an approximate scheme for analytical gradients and nonadiabatic couplings for calculating state-average density matrix renormalization group self-consistent-field wavefunction. Our formalism follows closely the state-average complete active space self-consistent-field (SA-CASSCF) \emph{ansatz}, which employs a Lagrangian, and the corresponding Lagrange multipliers are obtained from a solution of the coupled-perturbed CASSCF (CP-CASSCF) equations. We introduce a definition of the matrix product state (MPS) Lagrange multipliers based on a single-site tensor in a mixed-canonical form of the MPS, such that a sweep procedure is avoided in the solution of the CP-CASSCF equations. We apply our implementation to the optimization of a conical intersection in 1,2-dioxetanone, where we are able to fully reproduce the SA-CASSCF result up to arbitrary accuracy.

preprint2019arXivOpen access
Leon FreitagYingjin MaAlberto BaiardiStefan KnechtMarkus Reiher
cond-mat.str-elphysics.comp-phphysics.chem-phquant-ph
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Leon FreitagYingjin MaAlberto BaiardiStefan KnechtMarkus Reiher

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