4.6 Article

Multiterminal transport spectroscopy of subgap states in Coulomb-blockaded superconductors

Journal

PHYSICAL REVIEW B
Volume 106, Issue 23, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.106.235425

Keywords

-

Funding

  1. Danish National Re- search Foundation
  2. Danish Council for Independent Research | Natural Sciences [856526]
  3. Swedish Research Council
  4. NanoLund
  5. Villum Foundation [25310]
  6. European Union [847523]
  7. Marie Curie Actions (MSCA) [847523] Funding Source: Marie Curie Actions (MSCA)

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In this study, the low-bias transport features of hybrid superconducting-semiconducting devices are analyzed, focusing on the subgap states. The transport spectroscopy patterns are used to characterize the topological nature of these devices and offer the possibility of controlling their transport properties. It is found that the nonlocal differential conductance can characterize the spatial extension of the subgap states and indicate the presence of degenerate bound states with finite support and energy crossings.
Subgap states are responsible for the low-bias transport features of hybrid superconducting-semiconducting devices. Here we analyze the local , nonlocal differential conductance of Coulomb-blockaded multiterminal superconducting islands that host subgap states with different spatial structures. The emerging patterns of their transport spectroscopy are used to characterize the possible topological nature of these devices and offer the possibility of controlling their transport properties. We develop a next-to-leading order master equation to describe the multiterminal transport in superconductors with both strong Coulomb interactions and multiple subgap states, coupled with metallic leads. We show that the nonlocal differential conductance characterizes the spatial extension of the subgap states and signals the presence of degenerate bound states with a finite support on different parts of the device. Additionally, it displays sharp sign changes as a function of the induced charge of the superconductor, signaling energy crossings among its lowest excited states.

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