Nature Communications (Apr 2024)

Light-induced giant enhancement of nonreciprocal transport at KTaO3-based interfaces

  • Xu Zhang,
  • Tongshuai Zhu,
  • Shuai Zhang,
  • Zhongqiang Chen,
  • Anke Song,
  • Chong Zhang,
  • Rongzheng Gao,
  • Wei Niu,
  • Yequan Chen,
  • Fucong Fei,
  • Yilin Tai,
  • Guoan Li,
  • Binghui Ge,
  • Wenkai Lou,
  • Jie Shen,
  • Haijun Zhang,
  • Kai Chang,
  • Fengqi Song,
  • Rong Zhang,
  • Xuefeng Wang

DOI
https://doi.org/10.1038/s41467-024-47231-6
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 9

Abstract

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Abstract Nonlinear transport is a unique functionality of noncentrosymmetric systems, which reflects profound physics, such as spin-orbit interaction, superconductivity and band geometry. However, it remains highly challenging to enhance the nonreciprocal transport for promising rectification devices. Here, we observe a light-induced giant enhancement of nonreciprocal transport at the superconducting and epitaxial CaZrO3/KTaO3 (111) interfaces. The nonreciprocal transport coefficient undergoes a giant increase with three orders of magnitude up to 105 A−1 T−1. Furthermore, a strong Rashba spin-orbit coupling effective field of 14.7 T is achieved with abundant high-mobility photocarriers under ultraviolet illumination, which accounts for the giant enhancement of nonreciprocal transport coefficient. Our first-principles calculations further disclose the stronger Rashba spin-orbit coupling strength and the longer relaxation time in the photocarrier excitation process, bridging the light-property quantitative relationship. Our work provides an alternative pathway to boost nonreciprocal transport in noncentrosymmetric systems and facilitates the promising applications in opto-rectification devices and spin-orbitronic devices.