English

Fabry-Perot superconducting diode

Superconductivity 2024-06-21 v1

Abstract

Superconducting diode effects (SDEs) occur in systems with asymmetric critical supercurrents I+cIc|I^c_+|\neq |I^c_-| yielding dissipationless flow in one direction (e.g.,+)(e.g., +), while dissipative transport in the opposite direction ()(-). Here we investigate the SDE in a phase-biased ϕ\phi Josephson junction with a double-barrier resonant-tunneling InAs nanowire nested between proximitized InAs/Al leads with finite momentum q\hbar q Cooper pairing. Within the Bogoliubov-de Gennes (BdG) approach, we obtain the exact BCS ground state energy EG(q,ϕ)\mathcal{E}_G(q,\phi) and I+cIcI^{c}_{+} \neq |I^{c}_{-}| from the current-phase relation IG(q,ϕ)ϕEG(q,ϕ)I_G(q,\phi) \sim \partial_{\phi}\mathcal{E}_G(q,\phi). The SDE arises from the accrued Andreev phase shifts δϕL,R(q,ϕ)\delta \phi_{L,R}(q,\phi) leading to asymmetric BdG spectra for q0q\neq 0. Remarkably, the diode efficiency γ=(I+cIc)/(I+c+Ic)\gamma=(I^{c}_{+} - |I^{c}_{-}|)/(I^{c}_{+} + |I^{c}_{-}|) shows multiple Fabry-Perot resonances γ26%\gamma \simeq 26\% at the double-barrier Andreev bound states as the well depth VgV_g is varied. Our γ\gamma also features sign reversals for increasing qq and high sensitiveness to fermion-parity transitions. The latter enables I+c(ϕ+)Ic(ϕ)I^{c}_{+} (\phi_+)\rightleftarrows I^{c}_{-}(\phi_-) switchings over narrow phase windows, i.e., ϕ+,ϕΔϕπ\phi_+, \phi_- \in \Delta \phi\ll\pi, possibly relevant for future superconducting electronics.

Keywords

Cite

@article{arxiv.2404.08962,
  title  = {Fabry-Perot superconducting diode},
  author = {Xian-Peng Zhang},
  journal= {arXiv preprint arXiv:2404.08962},
  year   = {2024}
}

Comments

29 pages, 12 figures

R2 v1 2026-06-28T15:53:17.063Z