Symmetry-adapted modeling for molecules and crystals

Abstract: We have developed a symmetry-adapted modeling procedure for molecules and crystals. By using the completeness of multipoles to express spatial and time-reversal parity-specific anisotropic distributions, we can generate systematically the complete symmetry-adapted multipole basis set to describe any of electronic degrees of freedom in isolated cluster systems and periodic crystals. The symmetry-adapted modeling is then achieved by expressing the Hamiltonian in terms of the linear combination of these bases bel… Show more

“…1(c) [53]; it is noted that the P (T ) symmetry is lost in G xy (T xy ), while both P and T symmetries are lost in M xy . These four types of multipole constitute a complete set in the Hilbert space in electron systems [57,58].…”

Nematic Ordering Driven by Atomic-scale Multipoles

“…1(c) [53]; it is noted that the P (T ) symmetry is lost in G xy (T xy ), while both P and T symmetries are lost in M xy . These four types of multipole constitute a complete set in the Hilbert space in electron systems [57,58].…”

Nematic Ordering Driven by Atomic-scale Multipoles

Effect of external fields and currents on electronic nematic ordering with quadrupole moments

Quantification of chirality based on electric toroidal monopole