Add to ORKGAndreev bound states (ABSs) are localized quantum states that contain both electron and hole components. They ubiquitously reside in inhomogeneous superconducting systems. Following theoretical analysis, we propose to probe the electron-hole weights of an ABS via a local tunneling measurement that detects the transient current under a steplike pulse bias. With our protocol, the ABS energy level can also be obtained from peaks of the Fourier spectrum of the transient current. Our protocol can be applied to detect robust zero-energy Majorana bound states (MBSs), which have equal electron-hole weights, in candidate platforms where local tunneling spectroscopy measurement is possible. In the 1D Majorana nanowire model, we numerically calculate ...
We perform tunneling measurements on indium antimonide nanowire-superconductor hybrid devices fabric...
The performance of many semiconductor quantum-based structures is governed by the dynamics of charge...
We study time-resolved charge transport in a superconducting nanowire using time-dependent Landauer–...
Majorana bound states (MBS) at the end of nanowires have been proposed as one of the most important ...
Reading out the parity degree of freedom of Majorana bound states is key to demonstrating their nona...
We study Andreev bound states in hybrid InAs-Al nanowire devices. The energy of these states can be ...
We analyze Andreev bound states (ABSs) that form in normal sections of a Rashba nanowire that is onl...
We propose a transport probe scheme to detect the nonadiabatic transition caused by Majornana moving...
Originally proposed in high energy physics as particles, which are their own anti-particles, Majoran...
We systematically study three-terminal InSb-Al nanowire devices by using radio-frequency reflectomet...
We experimentally investigate Andreev bound states (ABSs) in a carbon nanotube quantum dot (QD) conn...
Zigzag and armchair hexagonal graphene quantum dots (GQDs) are employed as tunneling spectrometers t...
Distinguishing the zero-bias peak (ZBP) caused by Majorana fermions from that caused by other effect...
Superconductivity is a fascinating electronic order in which electrons pair up due to an attractive ...
Majorana bound states have been a topic of active research over the last decades. In the perspective...
We perform tunneling measurements on indium antimonide nanowire-superconductor hybrid devices fabric...
The performance of many semiconductor quantum-based structures is governed by the dynamics of charge...
We study time-resolved charge transport in a superconducting nanowire using time-dependent Landauer–...
Majorana bound states (MBS) at the end of nanowires have been proposed as one of the most important ...
Reading out the parity degree of freedom of Majorana bound states is key to demonstrating their nona...
We study Andreev bound states in hybrid InAs-Al nanowire devices. The energy of these states can be ...
We analyze Andreev bound states (ABSs) that form in normal sections of a Rashba nanowire that is onl...
We propose a transport probe scheme to detect the nonadiabatic transition caused by Majornana moving...
Originally proposed in high energy physics as particles, which are their own anti-particles, Majoran...
We systematically study three-terminal InSb-Al nanowire devices by using radio-frequency reflectomet...
We experimentally investigate Andreev bound states (ABSs) in a carbon nanotube quantum dot (QD) conn...
Zigzag and armchair hexagonal graphene quantum dots (GQDs) are employed as tunneling spectrometers t...
Distinguishing the zero-bias peak (ZBP) caused by Majorana fermions from that caused by other effect...
Superconductivity is a fascinating electronic order in which electrons pair up due to an attractive ...
Majorana bound states have been a topic of active research over the last decades. In the perspective...
We perform tunneling measurements on indium antimonide nanowire-superconductor hybrid devices fabric...
The performance of many semiconductor quantum-based structures is governed by the dynamics of charge...
We study time-resolved charge transport in a superconducting nanowire using time-dependent Landauer–...