期刊
PHYSICAL REVIEW B
卷 62, 期 8, 页码 4880-4889出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.62.4880
关键词
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We study the properties of states in which particle-hole pairs of nonzero angular momentum condense. These stares generalize charge- and spin-density-wave states, in which s-wave particle-hole pairs condense. We show that the p-wave spin-singlet state of this type has Peierls ordering, while the d-wave spin-singlet state is the staggered flux state. We discuss model Hamiltonians which favor p- and d-wave density-wave order. There are analogous orderings for pure spin models, which generalize spin-Peierls order. The spin-triplet density-wave states are accompanied by spin-1 Goldstone bosons, but these excitations do not contribute to the spin-spin correlation function. Hence they must be detected with NQR or Raman-Scattering experiments. Depending on the geometry and topology of the Fermi-surface, these states may admit gapless fermionic excitations. As the Fermi-surface geometry is changed, these excitations disappear at a transition which is third order in mean-held theory. The singlet d-wave- and triplet p-wave density-wave states are separated from the corresponding superconducting states by zero-temperature O(4)-symmetric critical points.
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