Quantum fluctuations in the spiral phase of the Hubbard model

Details Quantum fluctuations in the spiral phase of the Hubbard model Quantum fluctuations in the spiral phase of the Hubbard model

1995-02-24

arxiv.org/abs/cond-mat/9502106v2

Physics

Condensed Matter

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Scientific paper

10.1103/PhysRevB.52.R11557

We study the magnetic excitations in the spiral phase of the two--dimensional Hubbard model using a functional integral method. Spin waves are strongly renormalized and a line of near--zeros is observed in the spectrum around the spiral pitch $\pm{\bf Q}$. The possibility of disordered spiral states is examined by studying the one--loop corrections to the spiral order parameter. We also show that the spiral phase presents an intrinsic instability towards an inhomogeneous state (phase separation, CDW, ...) at weak doping. Though phase separation is suppressed by weak long--range Coulomb interactions, the CDW instability only disappears for sufficiently strong Coulomb interaction.

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