セミナー案内
- 日時
- 7月24日 (水), 13:30 ~
- 場所
- Hybrid style(Room 525 & Zoom) (URLはkitamura.taisei.67m[アット]st.kyoto-u.ac.jpまでお問い合わせください。)
- 講演者
- タイトル
- "Unidirectional superconductivity and diode effect induced by dissipation"
- 備考欄 (アブストラクト等)
Abstract: Nonreciprocal phenomena are attracting much attention as the novel probe and functionality of noncentrosymmetric materials. Among them, superconducting diode effect (SDE), a phenomenon where a superconductor's critical current becomes nonreciprocal, has attracted significant interest since its report in a Nb/V/Ta superlattice [1]. SDE is important both from both fundamental and applicational viewpoints. Thus, it is an important issue to identify its mechanisms. Generally speaking, SDE requires the time-reversal-symmetry breaking, and therefore most experimental configurations contain either external or internal magnetic fields. In this talk, we discuss another strategy to trigger SDE, by using the effective time-reversal-symmetry breaking by dissipation [2]. In such a case, the diode efficiency can reach the ideal value of 100%, which is forbidden in equilibrium systems, by driving the system out of equilibrium. We present a minimal model to probe the concept, where we consider in-plane critical currents of superconducting thin films. We apply the perpendicular electric fields, which can enter the superconductor and cause dissipation for the film thickness comparable to the electric-field penetration depth [3]. We obtain steady states by solving time-dependent Ginzburg-Landau equations and show that the SDE and the 100% SDE, which we name unidirectional superconductivity, are indeed realized in this model by the dissipation. Reference: [1] F. Ando, et al., Nature, 584, 373 (2020). [2] A. Daido and Y. Yanase, arXiv:2310.02539. [3] N. B. Kopnin, "Theory of Nonequilibrium Superconductivity," (Clarendon Press, 2001).