Login / Signup

Giant nonlinear optical wave mixing in a van der Waals correlated insulator.

Li YueChang LiuShanshan HanHao HongYijun WangQiaomei LiuJiajie QiYuan LiDong WuKai-Hui LiuEn-Ge WangTao DongNan-Lin Wang
Published in: Science advances (2024)
Optical nonlinearities are one of the most fascinating properties of two-dimensional (2D) materials. While tremendous efforts have been made to find and optimize the second-order optical nonlinearity in enormous 2D materials, opportunities to explore higher-order ones are elusive because of the much lower efficiency. Here, we report the giant high odd-order optical nonlinearities in centrosymmetric correlated van der Waals insulator manganese phosphorus triselenide. When illuminated by two near-infrared femtosecond lasers, the sample generates a series of profound four- and six-wave mixing outputs. The near-infrared third-order nonlinear susceptibility reaches near the highest record values of 2D materials. Comparative measurements to other prototypical nonlinear optical materials [lithium niobate, gallium(II) selenide, and tungsten disulfide] reveal its extraordinary wave mixing efficiency. The wave mixing processes are further used for nonlinear optical waveguide with multicolor emission. Our work highlights the promising prospect for future research of the nonlinear light-matter interactions in the correlated 2D system and for potential nonlinear photonic applications.
Keyphrases
  • high speed
  • high resolution
  • current status
  • genome wide
  • autism spectrum disorder
  • intellectual disability
  • climate change
  • human health
  • flow cytometry