Nature Communications (Oct 2023)

Visible to mid-infrared giant in-plane optical anisotropy in ternary van der Waals crystals

  • Yanze Feng,
  • Runkun Chen,
  • Junbo He,
  • Liujian Qi,
  • Yanan Zhang,
  • Tian Sun,
  • Xudan Zhu,
  • Weiming Liu,
  • Weiliang Ma,
  • Wanfu Shen,
  • Chunguang Hu,
  • Xiaojuan Sun,
  • Dabing Li,
  • Rongjun Zhang,
  • Peining Li,
  • Shaojuan Li

DOI
https://doi.org/10.1038/s41467-023-42567-x
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 8

Abstract

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Abstract Birefringence is at the heart of photonic applications. Layered van der Waals materials inherently support considerable out-of-plane birefringence. However, funnelling light into their small nanoscale area parallel to its out-of-plane optical axis remains challenging. Thus far, the lack of large in-plane birefringence has been a major roadblock hindering their applications. Here, we introduce the presence of broadband, low-loss, giant birefringence in a biaxial van der Waals materials Ta2NiS5, spanning an ultrawide-band from visible to mid-infrared wavelengths of 0.3–16 μm. The in-plane birefringence Δn ≈ 2 and 0.5 in the visible and mid-infrared ranges is one of the highest among van der Waals materials known to date. Meanwhile, the real-space propagating waveguide modes in Ta2NiS5 show strong in-plane anisotropy with a long propagation length (>20 μm) in the mid-infrared range. Our work may promote next-generation broadband and ultracompact integrated photonics based on van der Waals materials.