Superconductor-nanowire devices from tunneling to the multichannel regime: Zero-bias oscillations and magnetoconductance crossover
Harvard University · Massachusetts Institute of Technology · +3 more institutions
Abstract
We present transport measurements in superconductor-nanowire devices with a gated constriction forming a quantum point contact. Zero-bias features in tunneling spectroscopy appear at finite magnetic fields and oscillate in amplitude and split away from zero bias as a function of magnetic field and gate voltage. A crossover in magnetoconductance is observed: Magnetic fields above $\ensuremath{\sim}$0.5 T enhance conductance in the low-conductance (tunneling) regime but suppress conductance in the high-conductance (multichannel) regime. We consider these results in the context of Majorana zero modes as well as alternatives, including the Kondo effect and analogs of 0.7 structure in a disordered nanowire.
Citation impact
- FWCI
- 64.30
- Percentile
- 100%
- References
- 48
Authors
7Topics & keywords
- Condensed matter physics
- Conductance
- Quantum tunnelling
- Nanowire
- Physics
- Superconductivity
- Context (archaeology)
- Conductance quantum