Broken symmetry, hyper-fermions and universal conductance in transport through a fractional quantum Hall edge

V. V. Ponomarenko; D. V. Averin

doi:10.1209/epl/i2003-00255-3

Broken symmetry, hyper-fermions and universal conductance in transport through a fractional quantum Hall edge

V. V. Ponomarenko
, D. V. Averin

Physics and Astronomy

Stony Brook University

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

2 Scopus citations

Abstract

We have found solution to a model of tunneling between a multi-channel Fermi liquid reservoir and an edge of the principal fractional quantum Hall liquid (FQHL) in the strong-coupling limit. The solution explains how the absence of the time-reversal symmetry at high energies due to chiral edge propagation makes the universal two-terminal conductance of the FQHL fractionally quantized and different from that of a 1D Tomonaga-Luttinger liquid wire, where a similar model but preserving the time-reversal symmetry predicts unsuppressed free-electron conductance.

Original language	English
Pages (from-to)	102-108
Number of pages	7
Journal	EPL
Volume	61
Issue number	1
DOIs	https://doi.org/10.1209/epl/i2003-00255-3
State	Published - Jan 2003

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abstract = "We have found solution to a model of tunneling between a multi-channel Fermi liquid reservoir and an edge of the principal fractional quantum Hall liquid (FQHL) in the strong-coupling limit. The solution explains how the absence of the time-reversal symmetry at high energies due to chiral edge propagation makes the universal two-terminal conductance of the FQHL fractionally quantized and different from that of a 1D Tomonaga-Luttinger liquid wire, where a similar model but preserving the time-reversal symmetry predicts unsuppressed free-electron conductance.",

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N2 - We have found solution to a model of tunneling between a multi-channel Fermi liquid reservoir and an edge of the principal fractional quantum Hall liquid (FQHL) in the strong-coupling limit. The solution explains how the absence of the time-reversal symmetry at high energies due to chiral edge propagation makes the universal two-terminal conductance of the FQHL fractionally quantized and different from that of a 1D Tomonaga-Luttinger liquid wire, where a similar model but preserving the time-reversal symmetry predicts unsuppressed free-electron conductance.

AB - We have found solution to a model of tunneling between a multi-channel Fermi liquid reservoir and an edge of the principal fractional quantum Hall liquid (FQHL) in the strong-coupling limit. The solution explains how the absence of the time-reversal symmetry at high energies due to chiral edge propagation makes the universal two-terminal conductance of the FQHL fractionally quantized and different from that of a 1D Tomonaga-Luttinger liquid wire, where a similar model but preserving the time-reversal symmetry predicts unsuppressed free-electron conductance.

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DO - 10.1209/epl/i2003-00255-3

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VL - 61

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EP - 108

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IS - 1

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Broken symmetry, hyper-fermions and universal conductance in transport through a fractional quantum Hall edge

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