Charge transport in InAs nanowire Josephson junctions
(2014) In Physical Review B (Condensed Matter and Materials Physics) 89(21).- Abstract
- We present an extensive experimental and theoretical study of the proximity effect in InAs nanowires connected to superconducting electrodes. We fabricate and investigate devices with suspended gate-controlled nanowires and nonsuspended nanowires, with a broad range of lengths and normal-state resistances. We analyze the main features of the current-voltage characteristics: the Josephson current, excess current, and subgap current as functions of length, temperature, magnetic field, and gate voltage, and compare them with theory. The Josephson critical current for a short-length device, L = 30 nm, exhibits a record high magnitude of 800 nA at low temperature that comes close to the theoretically expected value. The critical current in all... (More)
- We present an extensive experimental and theoretical study of the proximity effect in InAs nanowires connected to superconducting electrodes. We fabricate and investigate devices with suspended gate-controlled nanowires and nonsuspended nanowires, with a broad range of lengths and normal-state resistances. We analyze the main features of the current-voltage characteristics: the Josephson current, excess current, and subgap current as functions of length, temperature, magnetic field, and gate voltage, and compare them with theory. The Josephson critical current for a short-length device, L = 30 nm, exhibits a record high magnitude of 800 nA at low temperature that comes close to the theoretically expected value. The critical current in all other devices is typically reduced compared to the theoretical values. The excess current is consistent with the normal resistance data and agrees well with the theory. The subgap current shows a large number of structures; some of them are identified as subharmonic gap structures generated by multiple Andreev reflection. The other structures, detected in both suspended and nonsuspended devices, have the form of voltage steps at voltages that are independent of either the superconducting gap or length of the wire. By varying the gate voltage in suspended devices, we are able to observe a crossover from typical tunneling transport at large negative gate voltage, with suppressed subgap current and negative excess current, to pronounced proximity junction behavior at large positive gate voltage, with enhanced Josephson current and subgap conductance as well as a large positive excess current. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/4602863
- author
- Abay, Simon ; Persson, Daniel ; Nilsson, Henrik LU ; Wu, Fan ; Xu, Hongqi LU ; Fogelstrom, Mikael ; Shumeiko, Vitaly and Delsing, Per
- organization
- publishing date
- 2014
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Physical Review B (Condensed Matter and Materials Physics)
- volume
- 89
- issue
- 21
- article number
- 214508
- publisher
- American Physical Society
- external identifiers
-
- wos:000338515800005
- scopus:84903518887
- ISSN
- 1098-0121
- DOI
- 10.1103/PhysRevB.89.214508
- language
- English
- LU publication?
- yes
- id
- 45fba03c-0e8d-4c24-970c-2850a2401607 (old id 4602863)
- date added to LUP
- 2016-04-01 14:44:14
- date last changed
- 2023-11-13 11:22:23
@article{45fba03c-0e8d-4c24-970c-2850a2401607, abstract = {{We present an extensive experimental and theoretical study of the proximity effect in InAs nanowires connected to superconducting electrodes. We fabricate and investigate devices with suspended gate-controlled nanowires and nonsuspended nanowires, with a broad range of lengths and normal-state resistances. We analyze the main features of the current-voltage characteristics: the Josephson current, excess current, and subgap current as functions of length, temperature, magnetic field, and gate voltage, and compare them with theory. The Josephson critical current for a short-length device, L = 30 nm, exhibits a record high magnitude of 800 nA at low temperature that comes close to the theoretically expected value. The critical current in all other devices is typically reduced compared to the theoretical values. The excess current is consistent with the normal resistance data and agrees well with the theory. The subgap current shows a large number of structures; some of them are identified as subharmonic gap structures generated by multiple Andreev reflection. The other structures, detected in both suspended and nonsuspended devices, have the form of voltage steps at voltages that are independent of either the superconducting gap or length of the wire. By varying the gate voltage in suspended devices, we are able to observe a crossover from typical tunneling transport at large negative gate voltage, with suppressed subgap current and negative excess current, to pronounced proximity junction behavior at large positive gate voltage, with enhanced Josephson current and subgap conductance as well as a large positive excess current.}}, author = {{Abay, Simon and Persson, Daniel and Nilsson, Henrik and Wu, Fan and Xu, Hongqi and Fogelstrom, Mikael and Shumeiko, Vitaly and Delsing, Per}}, issn = {{1098-0121}}, language = {{eng}}, number = {{21}}, publisher = {{American Physical Society}}, series = {{Physical Review B (Condensed Matter and Materials Physics)}}, title = {{Charge transport in InAs nanowire Josephson junctions}}, url = {{http://dx.doi.org/10.1103/PhysRevB.89.214508}}, doi = {{10.1103/PhysRevB.89.214508}}, volume = {{89}}, year = {{2014}}, }