APS Global Physics Summit Logo March 16–21, 2025, Anaheim, CA and virtual
Contributed Session
March

The Superconducting and Josephson Diode Effects

3:00 pm – 6:00 pm, Monday March 17 Session MAR-C24 Anaheim Convention Center, 255C (Level 2)
Chair:
Mike Osofsky, Towson University
Topics:
Sponsored by
DCMP

Absence of diode effect in chiral type-I superconductor NbGe2

5:36 pm – 5:48 pm
Presenter: Dong Li (RIKEN)
Authors: Zouyouwei Lu (Institute of Physics, Chinese Academy of Sciences), Wenxin Cheng (Institute of Physics, Chinese Academy of Sciences), Xiaofan Shi (Institute of Physics, Chinese Academy of Sciences), Lihong Hu (Institute of Physics, Chinese Academy of Sciences), Xiaoping Ma (Institute of Physics, Chinese Academy of Sciences), Yue Liu (Institute of Physics, CAS), Yuki Itahashi (RIKEN), Takashi Shitaokoshi (RIKEN), Peiling Li (Chinese Academy of Sciences,Institute of Physics), Hua Zhang (Institute of Physics, Chinese Academy of Sciences), Ziyi Liu (Institute of Physics, Chinese Academy of Sciences), Fanming Qu (Chinese Academy of Sciences), Jie Shen (Chinese Academy of Sciences,Institute of), Qihong Chen (Institute of Physics, Chinese Academy of Sciences), Kui Jin (Chinese Academy of Sciences,Institute of Physics), Jinguang Cheng (Chinese Academy of Sciences), Jens Hänisch (Institute for Technical Physics, Karlsruhe Institute of Technology), Huaixin Yang (Institute of Physics, Chinese Academy of Sciences), Guangtong Liu (Institute of Physics, Chinese Academy of Sciences), Li Lu (Chinese Academy of Sciences), Xiaoli Dong (Institute of Physics Chinese Academy of Sciences), Yoshihiro Iwasa (RIKEN), Jiangping Hu (Chinese Academy of Sciences)

Stemming from the nonreciprocal phenomena in quantum materials, novel functionalities such as superconducting diode effect (SDE) have been achieved in prototype devices through symmetry engineering. Although the SDE is widely observed in various platforms, its underlying mechanism remains debated, particularly regarding the role of vortices. However, it is challenging to rule out the inevitable vortices in type-II superconductors. Here, we systematically investigate the nonreciprocal transport in NbGe2, a rare material that possesses both chiral structure and type-I superconductivity to circumvent the intricate vortex effect. Moreover, type-II superconductivity with an elevated Tc is induced on the artificial surface by focused ion beam processing, allowing control over vortex dynamics in NbGe2 devices. We find that the diode efficiency is negligible at low magnetic fields but becomes significant at high magnetic fields, coinciding with an abrupt increase in vortex creep rate when the superconductivity of NbGe2 bulk is suppressed. This anomalous absence of SDE starkly contrasts with previous observations, where the SDE emerges instantly under external magnetic fields, revealing that the vortex dynamic plays a critical role in SDE besides the well-known symmetry rules.

PRESENTATIONS (15)