Advanced Science (Sep 2020)

A Fully Phase‐Modulated Metasurface as An Energy‐Controllable Circular Polarization Router

  • Yueyi Yuan,
  • Shang Sun,
  • Yang Chen,
  • Kuang Zhang,
  • Xumin Ding,
  • Badreddine Ratni,
  • Qun Wu,
  • Shah Nawaz Burokur,
  • Cheng‐Wei Qiu

DOI
https://doi.org/10.1002/advs.202001437
Journal volume & issue
Vol. 7, no. 18
pp. n/a – n/a

Abstract

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Abstract Geometric metasurfaces primarily follow the physical mechanism of Pancharatnam–Berry (PB) phases, empowering wavefront control of cross‐polarized reflective/transmissive light components. However, inherently accompanying the cross‐polarized components, the copolarized output components have not been attempted in parallel in existing works. Here, a general method is proposed to construct phase‐modulated metasurfaces for implementing functionalities separately in co‐ and cross‐polarized output fields under circularly polarized (CP) incidence, which is impossible to achieve with solely a geometric phase. By introducing a propagation phase as an additional degree of freedom, the electromagnetic (EM) energy carried by co‐ and cross‐polarized transmitted fields can be fully phase‐modulated with independent wavefronts. Under one CP incidence, a metasurface for separate functionalities with controllable energy repartition is verified by simulations and proof‐of‐principle microwave experiments. A variety of applications can be readily expected in spin‐selective optics, spin‐Hall metasurfaces, and multitasked metasurfaces operating in both reflective and transmissive modes.

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