Advanced Science (Nov 2023)

Geometric Phase in Twisted Topological Complementary Pair

  • Kun Zhang,
  • Xiao Li,
  • Daxing Dong,
  • Ming Xue,
  • Wen‐Long You,
  • Youwen Liu,
  • Lei Gao,
  • Jian‐Hua Jiang,
  • Huanyang Chen,
  • Yadong Xu,
  • Yangyang Fu

DOI
https://doi.org/10.1002/advs.202304992
Journal volume & issue
Vol. 10, no. 33
pp. n/a – n/a

Abstract

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Abstract Geometric phase enabled by spin‐orbit coupling has attracted enormous interest in optics over the past few decades. However, it is only applicable to circularly‐polarized light and encounters substantial challenges when applied to wave fields lacking the intrinsic spin degree of freedom. Here, a new paradigm is presented for achieving geometric phase by elucidating the concept of topological complementary pair (TCP), which arises from the combination of two compact phase elements possessing opposite intrinsic topological charge. Twisting the TCP leads to the generation of a linearly‐varying geometric phase of arbitrary order, which is quantified by the intrinsic topological charge. Notably distinct from the conventional spin‐orbit coupling‐based theories, the proposed geometric phase is the direct result of the cyclic evolution of orbital‐angular‐momentum transformation in mode space, thereby exhibiting universality across classical wave systems. As a proof of concept, the existence of this geometric phase is experimentally demonstrated using scalar acoustic waves, showcasing the remarkable ability in the precise manipulation of acoustic waves at subwavelength scales. These findings engender a fresh understanding of wave‐matter interaction in compact structures and establish a promising platform for exploring geometric phase, offering significant opportunities for diverse applications in wave systems.

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