Fakulta matematiky, fyziky
a informatiky
Univerzita Komenského v Bratislave

Seminár z teoretickej fyziky - Stanislav Komorovský (21.3.2017)

v utorok 21.3.2017 o 14:00 hod. v miestnosti F2/125


03. 03. 2017 21.10 hod.
Od: Peter Maták

Prednášajúci: Stanislav Komorovský (Ústav anorganickej chémie SAV)

Názov: New quantum number for the many-electron Dirac-Coulomb Hamiltonian

Termín: 21.3.2017, 14:00, F2/125


Abstrakt:
By breaking the spin symmetry in the relativistic domain, a powerful tool in physical sciences was lost. In this presentation, we will examine an alternative of spin symmetry for systems described by the many-electron Dirac-Coulomb Hamiltonian. We will show that the square of many-electron operator $K_+$, defined as a sum of individual single-electron time-reversal (TR) operators, is a linear Hermitian operator which commutes with the Dirac-Coulomb Hamiltonian in a finite Fock subspace. In contrast to the square of a standard unitary many-electron TR operator $K$, the $K^2_+$ has a rich eigenspectrum having potential to substitute spin symmetry in the relativistic domain. We will demonstrate that $K_+$ is connected to $K$ through an exponential mapping, in the same way as spin operators are mapped to the spin rotational group. Consequently, we call $K_+$ the generator of the many-electron TR symmetry. A new quantum number associated with $K^2_+$ has potential to be used in many areas, for instance, (a) to design effective spin Hamiltonians for electron spin resonance spectroscopy of heavy-element containing systems; (b) to increase efficiency of methods for the solution of many-electron problems in relativistic computational chemistry and physics; (c) to define Kramers contamination in unrestricted density functional and Hartree-Fock theory as a relativistic analog of the spin contamination in the nonrelativistic domain.