带层状超导体的超导隧道结

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摘要

摘要 异质结构中的超导隧穿效应描述了单个电子或库珀对隧穿势垒的过程,对于理解超导体中的相干性和配对机制始终起着重要作用。利用层状超导体原子级薄单层结构易于裂解以及电子或库珀对在二维极限产生量子约束的优势,在单层或异质结构中承载超导秩序的范德华超导材料可以表现出与涡旋和反涡旋对的量子相变相关的大量新兴现象。基于层状超导体的超导隧道结(STJ)已被证明可以实现新现象,包括安德烈耶夫束缚态、马约拉纳束缚态和 0/π 相结。由于准粒子隧穿势垒的特征参数与超导体的能隙值直接相关,因此可以在 STJ 器件的几何结构中获得这种临界参数,这有助于我们理解和控制超导体中的配对态和新现象。在这篇综述中,我们从具有单电子隧穿和库珀对隧穿的 STJ 的角度,讨论了安德列夫反射、马约拉纳束缚态、光子诱导的隧穿效应、非互惠输运和超导二极管现象,以及基于层状超导体的 STJ 的前景。
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Superconducting tunnel junctions with layered superconductors

Abstract

The superconducting tunneling effect in heterostructures, describing the process where single electrons or Cooper pairs tunnel through the barrier, can always play a significant role in understanding the phase coherence and pairing mechanisms in superconductors. Taking advantage of the easy cleavage to atomically-thin monolayer structure of layered superconductors and resulting quantum confinement of electrons or Cooper pairs at two-dimensional limit, van der Waals superconducting materials hosting superconducting order in monolayers or heterostructures can exhibit extensive emergent phenomena associated with quantum phase transitions of vortex and anti-vortex pairs. Examples of superconducting tunnel junctions (STJs) based on layered superconductors have been demonstrated to achieve novel phenomena, including Andreev bound states, Majorana bound states and 0/π-phase junctions. Since the characteristic parameters of quasiparticle tunneling through the barrier are directly associated with the energy gap values of superconductors, such critical parameter can be obtained within the STJ device geometry, which helps us understand and control the pairing states and emerging phenomena in superconductors. In this review, from the perspective of STJs with single electron tunneling and Cooper pair tunneling, we discuss Andreev reflection, Majorana bound states, photon-induced tunneling effects, non-reciprocal transport and superconducting diode phenomena, as well as prospects for layered-superconductor-based STJs.

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