Electronic structures of spin-orbit-coupled metal candidate PbRe2O6: one dimensionality and molecular orbital formation

Abstract

We present a first-principles investigation of the electronic structure of the inversion-symmetry-broken spin-orbit-coupled metal candidate PbRe2O6. Our calculations reveal that the Fermi surfaces derived from the dyz and dzx orbitals exhibit pronounced one-dimensional characteristics, which naturally account for the highly anisotropic charge transport observed experimentally. In addition, the dx2-y2 orbitals on each Re haxagon form molecular orbitals, where the resulting Eg molecular states generate nearly dispersionless bands in close proximity to the Fermi level. The coexistence of these quasi-1D Fermi surfaces and molecular-orbital-induced flat bands provides a possible microscopic origin for the successive phase transitions observed in PbRe2O6.