Group Theoretical Analysis of the Vortex Lattice States in the Attractive Hubbard Model : Condensed Matter and Statistical Physics
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概要
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This paper describes a group theoretical classification of superconducting states (vortex lattice states) in a unifom magnetic field of the extended Hubbard model with on-site attraction (U < 0), or nearest-neighbor attraction (V < 0) on a two-dimensional square lattice. Using symmetries of the magnetic translation and the tetragonal rotation of the system, we obtain invariance groups of vortex lattice states. When the magnetic flux φthrough a unit cell of the crystal lattice is φ_0/p^2 (φ = ch/2e is the flux quantum, p is an integer) we obtained three types of symmorphic tetragonal vortex lattice states, in which the center of point rotations is at a lattice site of the crystal lattice, corresponding to the irreducible representation of the tetragonal symmetry D_4. For these three states, locations and winding numbers of vortex lines are determined by the symmetries of their invariance group. From these three symmorphic states we derived three (two) types of non-symmorphic vortex lattice states in which the center of point rotations is at the center of a plaquette (link) of the crystal lattice. We show that d-wave, s-wave and p-wave local order parameters inevitably coexist due to the invariance magnetic translation group L of the vortex lattice state. From the irreducible projective representations (two-dimensional) of L, we show that all energy bands of the quasiparticles are at least doubly degenerate.
- 理論物理学刊行会の論文
- 1998-08-25
著者
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Ozaki M
Kochi Univ. Kochi
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Ozaki M
Department Of Physics Kochi University
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Ozaki Masa-aki
Department Of Physics Kyoto University
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HORI Yoshiki
Kochi National College of Technology
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GOTO Akira
Kochi National College of Technology
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YAMAZAKI Masahiko
Deprtment of Physics,Kochi University
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Ozaki Masa-aki
Department Of Physics Kochi University
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Yamazaki Masahiko
Institute Of Materials Structure Science Kek
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Yamazaki Masahiko
Deprtment Of Physics Kochi University:(present Address)department Of Material Structure Science The
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