Nonlocality of Majorana modes in hybrid nanowires | |
Article | |
关键词: SEMICONDUCTOR-SUPERCONDUCTOR NANOWIRES; TOPOLOGICAL QUANTUM COMPUTATION; BIAS CONDUCTANCE PEAK; ANDREEV BOUND-STATES; ZERO MODES; FERMIONS; DOT; DEVICE; PARITY; | |
DOI : 10.1103/PhysRevB.98.085125 | |
来源: SCIE |
【 摘 要 】
Spatial separation of Majorana zero modes distinguishes trivial from topological midgap states and is key to topological protection in quantum computing applications. Although signatures of Majorana zero modes in tunneling spectroscopy have been reported in numerous studies, a quantitative measure of the degree of separation, or nonlocality, of the emergent zero modes has not been reported. Here, we present results of an experimental study of nonlocality of emergent zero modes in superconductor-semiconductor hybrid nanowire devices. The approach takes advantage of recent theory showing that nonlocality can be measured from splitting due to hybridization of the zero mode in resonance with a quantum dot state at one end of the nanowire. From these splittings as well as anticrossing of the dot states, measured for even and odd occupied quantum dot states, we extract both the degree of nonlocality of the emergent zero mode, as well as the spin canting angles of the nonlocal zero mode. Depending on the device measured, we obtain either a moderate degree of nonlocality, suggesting a partially separated Andreev subgap state, or a highly nonlocal state consistent with a well-developed Majorana mode.
【 授权许可】
Free