Probing Luttinger liquid properties in a multichannel two-site charge Kondo simulator

A. V. Parafilo; V. M. Kovalev; I. G. Savenko

doi:10.1103/PhysRevB.108.L201101

Probing Luttinger liquid properties in a multichannel two-site charge Kondo simulator

A. V. Parafilo, V. M. Kovalev, I. G. Savenko

Physics

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

1 Scopus citations

Abstract

We study the influence of many-body interactions on the transport properties in a two-site charge Kondo circuit recently implemented in a hybrid metal-semiconductor double-quantum dot device [W. Pouse, Nat. Phys. 19, 492 (2023)1745-247310.1038/s41567-022-01905-4]. There emerge two principal types of interactions: (i) an intrinsic one, described by the Luttinger liquid model, and (ii) an induced one, which appears due to the coupling of the system to an Ohmic environment. Case (i) could be achieved if the charge Kondo circuit operates in the fractional quantum Hall regime, while case (ii) can be implemented via a finite number of open ballistic channels coupled to both the quantum dots. We demonstrate that the conductance scaling for the case of strong and weak interdot coupling is fully determined by the effective interaction parameter, which is the combination of the fractional filling factor ν=1/m and the number of transmitting channels. Furthermore, we predict that the fractional filling factor ν defines a universal Kondo scaling in the vicinity of a special triple-quantum critical point featured by the emergence of a Z3 parafermion.

Original language	English
Article number	L201101
Journal	Physical Review B
Volume	108
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevB.108.L201101
State	Published - 15 Nov 2023

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title = "Probing Luttinger liquid properties in a multichannel two-site charge Kondo simulator",

abstract = "We study the influence of many-body interactions on the transport properties in a two-site charge Kondo circuit recently implemented in a hybrid metal-semiconductor double-quantum dot device [W. Pouse, Nat. Phys. 19, 492 (2023)1745-247310.1038/s41567-022-01905-4]. There emerge two principal types of interactions: (i) an intrinsic one, described by the Luttinger liquid model, and (ii) an induced one, which appears due to the coupling of the system to an Ohmic environment. Case (i) could be achieved if the charge Kondo circuit operates in the fractional quantum Hall regime, while case (ii) can be implemented via a finite number of open ballistic channels coupled to both the quantum dots. We demonstrate that the conductance scaling for the case of strong and weak interdot coupling is fully determined by the effective interaction parameter, which is the combination of the fractional filling factor ν=1/m and the number of transmitting channels. Furthermore, we predict that the fractional filling factor ν defines a universal Kondo scaling in the vicinity of a special triple-quantum critical point featured by the emergence of a Z3 parafermion.",

author = "Parafilo, {A. V.} and Kovalev, {V. M.} and Savenko, {I. G.}",

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year = "2023",

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doi = "10.1103/PhysRevB.108.L201101",

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AU - Kovalev, V. M.

AU - Savenko, I. G.

PY - 2023/11/15

Y1 - 2023/11/15

N2 - We study the influence of many-body interactions on the transport properties in a two-site charge Kondo circuit recently implemented in a hybrid metal-semiconductor double-quantum dot device [W. Pouse, Nat. Phys. 19, 492 (2023)1745-247310.1038/s41567-022-01905-4]. There emerge two principal types of interactions: (i) an intrinsic one, described by the Luttinger liquid model, and (ii) an induced one, which appears due to the coupling of the system to an Ohmic environment. Case (i) could be achieved if the charge Kondo circuit operates in the fractional quantum Hall regime, while case (ii) can be implemented via a finite number of open ballistic channels coupled to both the quantum dots. We demonstrate that the conductance scaling for the case of strong and weak interdot coupling is fully determined by the effective interaction parameter, which is the combination of the fractional filling factor ν=1/m and the number of transmitting channels. Furthermore, we predict that the fractional filling factor ν defines a universal Kondo scaling in the vicinity of a special triple-quantum critical point featured by the emergence of a Z3 parafermion.

AB - We study the influence of many-body interactions on the transport properties in a two-site charge Kondo circuit recently implemented in a hybrid metal-semiconductor double-quantum dot device [W. Pouse, Nat. Phys. 19, 492 (2023)1745-247310.1038/s41567-022-01905-4]. There emerge two principal types of interactions: (i) an intrinsic one, described by the Luttinger liquid model, and (ii) an induced one, which appears due to the coupling of the system to an Ohmic environment. Case (i) could be achieved if the charge Kondo circuit operates in the fractional quantum Hall regime, while case (ii) can be implemented via a finite number of open ballistic channels coupled to both the quantum dots. We demonstrate that the conductance scaling for the case of strong and weak interdot coupling is fully determined by the effective interaction parameter, which is the combination of the fractional filling factor ν=1/m and the number of transmitting channels. Furthermore, we predict that the fractional filling factor ν defines a universal Kondo scaling in the vicinity of a special triple-quantum critical point featured by the emergence of a Z3 parafermion.

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Probing Luttinger liquid properties in a multichannel two-site charge Kondo simulator

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