Efficient and accurate approximations to the molecular spin-orbit coupling operator and their use in molecular g-tensor calculations
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Abstract
Approximations to the Breit-Pauli form of the spin-orbit coupling (SOC) operator are examined. The focus is on approximations that lead to an effective quasi-one-electron operator which leads to efficient property evaluations. In particular, the accurate spin-orbit mean-field (SOMF) method developed by Hess, Marian, Wahlgren, and Gropen is examined in detail. It is compared in detail with the "effective potential" spin-orbit operator commonly used in density functional theory (DFT) and which has been criticized for not including the spin-other orbit (SOO) contribution. Both operators contain identical one-electron and Coulomb terms since the SOO contribution to the Coulomb term vanishes exactly in the SOMF…
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Topics
Keywords
- Physics
- Operator (biology)
- Coulomb
- Quantum mechanics
- Spin–orbit interaction
- Density functional theory
- Coupling constant
- Tensor (intrinsic definition)
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