期刊
PHYSICAL REVIEW B
卷 82, 期 8, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.82.085102
关键词
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资金
- U.S. Department of Energy (DOE) [DE-FG0205ER41360]
- NSF [PHY-05-51164]
We study an Abelian gauge theory in 2 + 1 dimensions which has surprising theoretical and phenomenological features. The theory has a vanishing coefficient for the square of the electric field e(i)(2), characteristic of a quantum critical point with dynamical critical exponent z = 2, and a level-k Chern-Simons coupling, which is marginal at this critical point. For k = 0, this theory is dual to a free z = 2 scalar field theory describing a quantum Lifshitz transition, but k not equal 0 renders the scalar description nonlocal. The k not equal 0 theory exhibits properties intermediate between the (topological) pure Chern-Simons theory and the scalar theory. For instance, the Chern-Simons term does not make the gauge field massive. Nevertheless, there are chiral edge modes when the theory is placed on a space with boundary and a nontrivial ground-state degeneracy k(g) when it is placed on a finite-size Riemann surface of genus g. The coefficient of e(i)(2) is the only relevant coupling; it tunes the system through a quantum phase transition between an isotropic fractional quantum Hall state and an anisotropic fractional quantum Hall state. We compute zero-temperature transport coefficients in both phases and at the critical point and comment briefly on the relevance of our results to recent experiments.
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