Field-induced spin-density-wave phases in quasi-one-dimensional conductors: Theory versus experiments

A. G. Lebed

Field-induced spin-density-wave phases in quasi-one-dimensional conductors: Theory versus experiments

Research output: Contribution to journal › Article › peer-review

Abstract

The field-induced spin-density-wave phases (FISDW) were studied in quasi-one-dimensional conductors. It was showed that the important features of the magnetic field induced-FISDW phase diagrams were missed by the quantized nesting model. It was speculated that the 3D quantum Hall effect (QHE) existed only in the quantum FISDW phases and disappeared in the quasiclassical FISDW states. It was expected that physical properties as a nonlinear FISDW conductivity and magic angle phenomenon were different in the quantum FISDW and quasiclassical FISDW phases.

Original language	English (US)
Article number	177001
Pages (from-to)	1770011-1770014
Number of pages	4
Journal	Physical review letters
Volume	88
Issue number	17
State	Published - Apr 29 2002
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

Cite this

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abstract = "The field-induced spin-density-wave phases (FISDW) were studied in quasi-one-dimensional conductors. It was showed that the important features of the magnetic field induced-FISDW phase diagrams were missed by the quantized nesting model. It was speculated that the 3D quantum Hall effect (QHE) existed only in the quantum FISDW phases and disappeared in the quasiclassical FISDW states. It was expected that physical properties as a nonlinear FISDW conductivity and magic angle phenomenon were different in the quantum FISDW and quasiclassical FISDW phases.",

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AB - The field-induced spin-density-wave phases (FISDW) were studied in quasi-one-dimensional conductors. It was showed that the important features of the magnetic field induced-FISDW phase diagrams were missed by the quantized nesting model. It was speculated that the 3D quantum Hall effect (QHE) existed only in the quantum FISDW phases and disappeared in the quasiclassical FISDW states. It was expected that physical properties as a nonlinear FISDW conductivity and magic angle phenomenon were different in the quantum FISDW and quasiclassical FISDW phases.

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Field-induced spin-density-wave phases in quasi-one-dimensional conductors: Theory versus experiments

Abstract

ASJC Scopus subject areas

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