2014
DOI: 10.1063/1.4897254
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Perturbative treatment of spin-orbit coupling within spin-free exact two-component theory

Abstract: This work deals with the perturbative treatment of spin-orbit-coupling (SOC) effects within the spin-free exact two-component theory in its one-electron variant (SFX2C-1e). We investigate two schemes for constructing the SFX2C-1e SOC matrix: the SFX2C-1e+SOC [der] scheme defines the SOC matrix elements based on SFX2C-1e analytic-derivative theory, hereby treating the SOC integrals as the perturbation; the SFX2C-1e+SOC [fd] scheme takes the difference between the X2C-1e and SFX2C-1e Hamiltonian matrices as the … Show more

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Cited by 35 publications
(34 citation statements)
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“…The effective SOC values for singlet−triplet transitions are assigned to be 51.6 cm −1 , and they are 184.6 cm −1 for that between triplets and quintets, which together engender an indirect singlet/quintet mixing. 104,105 3. RESULTS AND DISCUSSIONS 3.1.…”
Section: Methods and Computation Detailsmentioning
confidence: 99%
“…The effective SOC values for singlet−triplet transitions are assigned to be 51.6 cm −1 , and they are 184.6 cm −1 for that between triplets and quintets, which together engender an indirect singlet/quintet mixing. 104,105 3. RESULTS AND DISCUSSIONS 3.1.…”
Section: Methods and Computation Detailsmentioning
confidence: 99%
“…Perturbative treatment of spin-orbit effects can be obtained using either the SFDC or the SFX2C-1e scheme as the zeroth-order treatment. [287][288][289] For the latter, the corresponding spinorbit integrals are defined as first derivatives of SFX2C-1e Hamiltonian integrals, thereby treating spin-orbit integrals in the four-component formulation as the perturbation and using the analytic SFX2C-1e derivative technique. In this way, scalar-relativistic effects on spin-orbit integrals, which represent the coupling between scalar relativistic effects and spin-orbit coupling, have been taken into account.…”
Section: Please Cite This Article As Doi:101063/50004837mentioning
confidence: 99%
“…Two-electron spin-orbit contributions can be taken into account using the molecular mean-field (MMF) or the atomic mean-field (AMF) spin-orbit approach. 288,290,291 The resulting effective one-electron spin-orbit integrals can be contracted with one-electron transition density matrices to obtain spin-orbit matrix elements between two electronic states. The EOM-CCSD transition densities (also needed for the quasidiabatic couplings in Section IV.…”
Section: Please Cite This Article As Doi:101063/50004837mentioning
confidence: 99%
“…effects and their coupling [52][53][54][55][56][57]. In addition to the scalar relativistic (SR) effects, the influence of relativistic spinorbit coupling (SO) needs to be taken into account in the heavy element magnetic resonance parameters [55,57,58]. While combining relativistic theory with more elaborate electron correlation treatment with hybrid functionals of the density functional theory (DFT) is currently not feasible for periodic solids, we follow closely the approach of Roukala et al for the nuclear shielding tensor of 195 Pt in molecular solids [59].…”
Section: Quantum Chemistry Calculationmentioning
confidence: 99%