Magnetic field enhanced critical current in Ge-Si nanowire Josephson junctions

Zhen Wu; Joost Ridderbos; Ang Li; Alexander A. Golubov; Floris A. Zwanenburg; Erik P.A.M. Bakkers; Alexander Brinkman; Chuan Li

doi:10.1063/5.0211538

Magnetic field enhanced critical current in Ge-Si nanowire Josephson junctions

Zhen Wu
, Joost Ridderbos
, Ang Li
, Alexander A. Golubov
, Floris A. Zwanenburg
, Erik P.A.M. Bakkers
, Alexander Brinkman
, Chuan Li (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

3 Citaten (Scopus)

22 Downloads (Pure)

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Anomalous critical current enhancement was observed with increasing magnetic field in Josephson junctions based on Ge-Si core-shell nanowires. Despite the predicted topological properties of these nanowires, which could potentially lead to non-trivial superconducting order parameter symmetries, our investigation unveils a more generalized, non-topological explanation for the observed critical current enhancement in these devices. Our findings suggest that the enhancement arises from a thermalization process induced by the magnetic field, wherein in-gap quasiparticles are generated. These quasiparticles play a crucial role in enhancing the cooling of the device, thereby lowering the effective temperature and resulting in an increased critical current. Furthermore, we elucidate how this thermalization effect varies with device geometry and measurement configuration.

Originele taal-2	Engels
Artikelnummer	012603
Aantal pagina's	6
Tijdschrift	Applied Physics Letters
Volume	125
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1063/5.0211538
Status	Gepubliceerd - 1 jul. 2024

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title = "Magnetic field enhanced critical current in Ge-Si nanowire Josephson junctions",

abstract = "Anomalous critical current enhancement was observed with increasing magnetic field in Josephson junctions based on Ge-Si core-shell nanowires. Despite the predicted topological properties of these nanowires, which could potentially lead to non-trivial superconducting order parameter symmetries, our investigation unveils a more generalized, non-topological explanation for the observed critical current enhancement in these devices. Our findings suggest that the enhancement arises from a thermalization process induced by the magnetic field, wherein in-gap quasiparticles are generated. These quasiparticles play a crucial role in enhancing the cooling of the device, thereby lowering the effective temperature and resulting in an increased critical current. Furthermore, we elucidate how this thermalization effect varies with device geometry and measurement configuration.",

author = "Zhen Wu and Joost Ridderbos and Ang Li and Golubov, \{Alexander A.\} and Zwanenburg, \{Floris A.\} and Bakkers, \{Erik P.A.M.\} and Alexander Brinkman and Chuan Li",

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AU - Wu, Zhen

AU - Ridderbos, Joost

AU - Li, Ang

AU - Golubov, Alexander A.

AU - Zwanenburg, Floris A.

AU - Bakkers, Erik P.A.M.

AU - Brinkman, Alexander

AU - Li, Chuan

PY - 2024/7/1

Y1 - 2024/7/1

N2 - Anomalous critical current enhancement was observed with increasing magnetic field in Josephson junctions based on Ge-Si core-shell nanowires. Despite the predicted topological properties of these nanowires, which could potentially lead to non-trivial superconducting order parameter symmetries, our investigation unveils a more generalized, non-topological explanation for the observed critical current enhancement in these devices. Our findings suggest that the enhancement arises from a thermalization process induced by the magnetic field, wherein in-gap quasiparticles are generated. These quasiparticles play a crucial role in enhancing the cooling of the device, thereby lowering the effective temperature and resulting in an increased critical current. Furthermore, we elucidate how this thermalization effect varies with device geometry and measurement configuration.

AB - Anomalous critical current enhancement was observed with increasing magnetic field in Josephson junctions based on Ge-Si core-shell nanowires. Despite the predicted topological properties of these nanowires, which could potentially lead to non-trivial superconducting order parameter symmetries, our investigation unveils a more generalized, non-topological explanation for the observed critical current enhancement in these devices. Our findings suggest that the enhancement arises from a thermalization process induced by the magnetic field, wherein in-gap quasiparticles are generated. These quasiparticles play a crucial role in enhancing the cooling of the device, thereby lowering the effective temperature and resulting in an increased critical current. Furthermore, we elucidate how this thermalization effect varies with device geometry and measurement configuration.

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DO - 10.1063/5.0211538

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SN - 0003-6951

VL - 125

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 1

M1 - 012603

ER -

Magnetic field enhanced critical current in Ge-Si nanowire Josephson junctions

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