2020
DOI: 10.1103/physrevb.101.081406
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Revealing the nonlocal coherent nature of Majorana devices from dissipative teleportation

Abstract: The non-local coherent nature of the Majorana devices is one of the key factors for realizing decoherence-free topological qubits. Direct observation of this coherent nature could provide a first-step benchmarking scheme to validate Majorana qubit quality. We propose a simple transport scheme with a Majorana island device along with a dissipative environment in the electrodes. We found that the dissipative environment renormalizes the quantum transport in significant different ways: As reducing temperature, wh… Show more

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Cited by 14 publications
(4 citation statements)
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“…Our result shows that weak dissipation strength (R film ∼ 2.7 kΩ) can not suppress ABS-induced ZBPs, therefore sets a lower bar on dissipation strength for future MZM devices [50]. For Majorana or quasi-Majorana resonance detection [25,26], stronger dissipation regime [35] is preferred which can effectively 'filter out' trivial ZBPs [34,49,51,52]. Since in the weak dissipation regime, the heights of ZBPs induced by zero-energy ABSs could either increase (Fig.…”
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confidence: 86%
“…Our result shows that weak dissipation strength (R film ∼ 2.7 kΩ) can not suppress ABS-induced ZBPs, therefore sets a lower bar on dissipation strength for future MZM devices [50]. For Majorana or quasi-Majorana resonance detection [25,26], stronger dissipation regime [35] is preferred which can effectively 'filter out' trivial ZBPs [34,49,51,52]. Since in the weak dissipation regime, the heights of ZBPs induced by zero-energy ABSs could either increase (Fig.…”
mentioning
confidence: 86%
“…In addition, this non-local feature is directly associated with the topological protection of the potential Majorana-based quantum information processing. This fact has inspired multiple recent theoretical [33][34][35][36][37][38][39][40] proposals and experimental [41][42][43][44][45][46][47][48][49][50] efforts.…”
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confidence: 99%
“…This work is from a single device whose quality is an improvement over our previous one [14]. Besides the 'end-to-end' correlation experiment to reveal gap-closing-reopening [39][40][41], future devices on 'single-terminal' experiments could aim at 1) looking for zero-bias peak-to-dip transition near 2e 2 /h with better tolerance [14,16,19]; 2) using a strongly dissipative probe to reveal quantized ZBPs and suppress non-quantized ones [42][43][44][45][46]; 3) looking for ZBP quantization in potentially better material systems [47,48]. The device conductance G as a function of V was directly calculated by dI/dV .…”
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confidence: 99%