Unusual Symmetries in the Kugel-Khomskii Hamiltonian
Abstract
The Kugel-Khomskii Hamiltonian for cubic titanates describes spin and orbital superexchange interactions between d1 ions having three-fold degenerate t2g orbitals. Since orbitals do not couple along "inactive" axes, perpendicular to the orbital planes, the total number of electrons in |α > orbitals in any such plane and the corresponding total spin are both conserved. A Mermin-Wagner construction shows that there is no long-range spin ordering at nonzero temperatures. Inclusion of spin-orbit coupling allows such ordering, but even then the excitation spectrum is gapless due to a continuous symmetry. Thus, the observed order and gap require more symmetry breaking terms.
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