Relativistic T×T and T×E Jahn-Teller coupling in tetrahedral systems

Leonid V. Poluyanov; Wolfgang Domcke

doi:10.1016/j.chemphys.2010.06.025

Relativistic T×T and T×E Jahn-Teller coupling in tetrahedral systems

Leonid V. Poluyanov, Wolfgang Domcke

Lehrstuhl für Theoretische Chemie

N.N. Semenov Institute of Chemical Physics, Russian Academy of Sciences

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

29 Zitate (Scopus)

Abstract

It is shown that orbitally triply degenerate spin-doublet states ( ²T₂) in tetrahedral systems exhibit, in addition to the well-known electrostatic Jahn-Teller effects, Jahn-Teller couplings which are of relativistic origin, that is, they arise from the spin-orbit operator. The linear relativistic Jahn-Teller Hamiltonian of a ²T₂ state involving vibrational modes of £ and T₂ symmetry is derived with group-theoretical methods. The ²T₂ × (E + T₂) Jahn-Teller Hamiltonian is transformed to a SO-adapted basis in which the zerothorder spin-orbit-coupling matrix is diagonal. For the 4 × 4 sub-matrices corresponding to the C_3/2 irreducible representation of the spin double group T′_d, the adiabatic potential-energy surfaces and the geometric phases of the adiabatic electronic wave functions are given in analytic form.

Originalsprache	Englisch
Seiten (von - bis)	86-93
Seitenumfang	8
Fachzeitschrift	Chemical Physics
Jahrgang	374
Ausgabenummer	1-3
DOIs	https://doi.org/10.1016/j.chemphys.2010.06.025
Publikationsstatus	Veröffentlicht - 23 Aug. 2010

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10.1016/j.chemphys.2010.06.025

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abstract = "It is shown that orbitally triply degenerate spin-doublet states ( 2T2) in tetrahedral systems exhibit, in addition to the well-known electrostatic Jahn-Teller effects, Jahn-Teller couplings which are of relativistic origin, that is, they arise from the spin-orbit operator. The linear relativistic Jahn-Teller Hamiltonian of a 2T2 state involving vibrational modes of £ and T2 symmetry is derived with group-theoretical methods. The 2T2 × (E + T2) Jahn-Teller Hamiltonian is transformed to a SO-adapted basis in which the zerothorder spin-orbit-coupling matrix is diagonal. For the 4 × 4 sub-matrices corresponding to the C3/2 irreducible representation of the spin double group T′d, the adiabatic potential-energy surfaces and the geometric phases of the adiabatic electronic wave functions are given in analytic form.",

keywords = "Jahn-Teller effect, Relativists effects, Spin-orbit coupling",

author = "Poluyanov, {Leonid V.} and Wolfgang Domcke",

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AU - Poluyanov, Leonid V.

AU - Domcke, Wolfgang

PY - 2010/8/23

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N2 - It is shown that orbitally triply degenerate spin-doublet states ( 2T2) in tetrahedral systems exhibit, in addition to the well-known electrostatic Jahn-Teller effects, Jahn-Teller couplings which are of relativistic origin, that is, they arise from the spin-orbit operator. The linear relativistic Jahn-Teller Hamiltonian of a 2T2 state involving vibrational modes of £ and T2 symmetry is derived with group-theoretical methods. The 2T2 × (E + T2) Jahn-Teller Hamiltonian is transformed to a SO-adapted basis in which the zerothorder spin-orbit-coupling matrix is diagonal. For the 4 × 4 sub-matrices corresponding to the C3/2 irreducible representation of the spin double group T′d, the adiabatic potential-energy surfaces and the geometric phases of the adiabatic electronic wave functions are given in analytic form.

AB - It is shown that orbitally triply degenerate spin-doublet states ( 2T2) in tetrahedral systems exhibit, in addition to the well-known electrostatic Jahn-Teller effects, Jahn-Teller couplings which are of relativistic origin, that is, they arise from the spin-orbit operator. The linear relativistic Jahn-Teller Hamiltonian of a 2T2 state involving vibrational modes of £ and T2 symmetry is derived with group-theoretical methods. The 2T2 × (E + T2) Jahn-Teller Hamiltonian is transformed to a SO-adapted basis in which the zerothorder spin-orbit-coupling matrix is diagonal. For the 4 × 4 sub-matrices corresponding to the C3/2 irreducible representation of the spin double group T′d, the adiabatic potential-energy surfaces and the geometric phases of the adiabatic electronic wave functions are given in analytic form.

KW - Jahn-Teller effect

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Relativistic T×T and T×E Jahn-Teller coupling in tetrahedral systems

Abstract

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