English

Spin triplet superconducting proximity effect in a ferromagnetic semiconductor

Mesoscale and Nanoscale Physics 2019-03-27 v1

Abstract

Conventional spin-singlet superconductivity that deeply penetrates into ferromagnets is typically killed by the exchange interaction, which destroys the spin-singlet pairs. Under certain circumstances, however, superconductivity survives this interaction by adopting the pairing behavior of spin triplets. The necessary conditions for the emergence of triplet pairs are well-understood, owing to significant developments in theoretical frameworks and experiments. The long-term challenges to inducing superconductivity in magnetic semiconductors, however, involve difficulties in observing the finite supercurrent, even though the generation of superconductivity in host materials has been well-established and extensively examined. Here, we show the first evidence of proximity-induced superconductivity in a ferromagnetic semiconductor (In, Fe)As. The supercurrent reached a distance scale of 1 μ\sim 1~\mum, which is comparable to the proximity range in two-dimensional electrons at surfaces of pure InAs. Given the long range of its proximity effects and its response to magnetic fields, we conclude that spin-triplet pairing is dominant in proximity superconductivity. Therefore, this progress in ferromagnetic semiconductors is a breakthrough in semiconductor physics involving unconventional superconducting pairing.

Keywords

Cite

@article{arxiv.1806.08035,
  title  = {Spin triplet superconducting proximity effect in a ferromagnetic semiconductor},
  author = {Taketomo Nakamura and Le Duc Anh and Yoshiaki Hashimoto and Shinobu Ohya and Masaaki Tanaka and Shingo Katsumoto},
  journal= {arXiv preprint arXiv:1806.08035},
  year   = {2019}
}

Comments

5 pages, 5 figures,

R2 v1 2026-06-23T02:36:47.533Z