Readout of Parafermionic States by Transport Measurements

Ida E. Nielsen; Karsten Flensberg; Reinhold Egger; Michele Burrello

doi:10.1103/PhysRevLett.129.037703

Readout of Parafermionic States by Transport Measurements

Ida E. Nielsen^*, Karsten Flensberg, Reinhold Egger, Michele Burrello

^*Corresponding author for this work

Condensed Matter Physics

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

7 Citations (Scopus)

23 Downloads (Pure)

Abstract

Recent experiments have demonstrated the possibility of inducing superconducting pairing into counterpropagating fractional quantum Hall edge modes. This paves the way for the realization of localized parafermionic modes, non-Abelian anyons that share fractional charges in a nonlocal way. We show that, for a pair of isolated parafermions, this joint degree of freedom can be read by conductance measurements across standard metallic electrodes. We propose two complementary setups. We investigate first the transport through a grounded superconductor hosting two interacting parafermions. In the low -energy limit, its conductance peaks reveal their shared fractional charge yielding a three-state telegraph noise for weak quasiparticle poisoning. We then examine the two-terminal electron conductance of a blockaded fractional topological superconductor, which displays a characteristic e/3 periodicity of its zero -bias peaks in the deep topological regime, thus signaling the presence of parafermionic modes.

Original language	English
Article number	037703
Journal	Physical Review Letters
Volume	129
Issue number	3
Number of pages	6
ISSN	0031-9007
DOIs	https://doi.org/10.1103/PhysRevLett.129.037703
Publication status	Published - 13 Jul 2022

Keywords

ZERO-MODES
QUANTUM

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10.1103/PhysRevLett.129.037703

PhysRevLett.129.037703Final published version, 2.71 MB

https://arxiv.org/pdf/2109.02300.pdf

Cite this

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title = "Readout of Parafermionic States by Transport Measurements",

abstract = "Recent experiments have demonstrated the possibility of inducing superconducting pairing into counterpropagating fractional quantum Hall edge modes. This paves the way for the realization of localized parafermionic modes, non-Abelian anyons that share fractional charges in a nonlocal way. We show that, for a pair of isolated parafermions, this joint degree of freedom can be read by conductance measurements across standard metallic electrodes. We propose two complementary setups. We investigate first the transport through a grounded superconductor hosting two interacting parafermions. In the low -energy limit, its conductance peaks reveal their shared fractional charge yielding a three-state telegraph noise for weak quasiparticle poisoning. We then examine the two-terminal electron conductance of a blockaded fractional topological superconductor, which displays a characteristic e/3 periodicity of its zero -bias peaks in the deep topological regime, thus signaling the presence of parafermionic modes.",

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T1 - Readout of Parafermionic States by Transport Measurements

AU - Nielsen, Ida E.

AU - Flensberg, Karsten

AU - Egger, Reinhold

AU - Burrello, Michele

PY - 2022/7/13

Y1 - 2022/7/13

N2 - Recent experiments have demonstrated the possibility of inducing superconducting pairing into counterpropagating fractional quantum Hall edge modes. This paves the way for the realization of localized parafermionic modes, non-Abelian anyons that share fractional charges in a nonlocal way. We show that, for a pair of isolated parafermions, this joint degree of freedom can be read by conductance measurements across standard metallic electrodes. We propose two complementary setups. We investigate first the transport through a grounded superconductor hosting two interacting parafermions. In the low -energy limit, its conductance peaks reveal their shared fractional charge yielding a three-state telegraph noise for weak quasiparticle poisoning. We then examine the two-terminal electron conductance of a blockaded fractional topological superconductor, which displays a characteristic e/3 periodicity of its zero -bias peaks in the deep topological regime, thus signaling the presence of parafermionic modes.

AB - Recent experiments have demonstrated the possibility of inducing superconducting pairing into counterpropagating fractional quantum Hall edge modes. This paves the way for the realization of localized parafermionic modes, non-Abelian anyons that share fractional charges in a nonlocal way. We show that, for a pair of isolated parafermions, this joint degree of freedom can be read by conductance measurements across standard metallic electrodes. We propose two complementary setups. We investigate first the transport through a grounded superconductor hosting two interacting parafermions. In the low -energy limit, its conductance peaks reveal their shared fractional charge yielding a three-state telegraph noise for weak quasiparticle poisoning. We then examine the two-terminal electron conductance of a blockaded fractional topological superconductor, which displays a characteristic e/3 periodicity of its zero -bias peaks in the deep topological regime, thus signaling the presence of parafermionic modes.

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KW - QUANTUM

U2 - 10.1103/PhysRevLett.129.037703

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