Non-Hermitian Topological Photonics

ORAL

Abstract

The ideas of topology have found tremendous success in Hermitian physical systems, but even richer properties exist in the more general non-Hermitian framework. Here, we theoretically propose and experimentally demonstrate a new topologically-protected bulk Fermi arc which—unlike the well-known surface Fermi arcs arising from Weyl points in Hermitian systems—develops from non-Hermitian radiative losses in photonic crystal slabs. Moreover, we discover half-integer topological charges in the polarization of far-field radiation around the Fermi arc. We show that both phenomena are direct consequences of the non-Hermitian topological properties of exceptional points, where resonances coincide in their frequencies and linewidths. Our work connects the fields of topological photonics, non-Hermitian physics, and singular optics, and paves the way for future exploration of non-Hermitian topological systems.

Presenters

  • Bo Zhen

    University of Pennsylvania

Authors

  • Bo Zhen

    University of Pennsylvania

  • Hengyun Zhou

    Massachusetts Institute of Technology, MIT, California Institute of Technology

  • Chao Peng

    MIT

  • Yoseob Yoon

    MIT

  • Chia Wei Hsu

    Yale University

  • Huitao Shen

    Department of Physics, Massachusetts Institute of Technology, Massachusetts Inst of Tech-MIT, Physics, Massachusetts inst of Tech, MIT

  • Liang Fu

    Department of Physics, Massachusetts Institute of Technology, Massachusetts Inst of Tech-MIT, Physics, Massachusetts Inst of Tech-MIT, Physics, Massachusetts Institute of Technology, Physics, Massachusetts Inst of Technology, Physics, MIT, Massachusetts Institute of Technology, MIT

  • Keith Nelson

    Chemistry, Massachusetts Inst of Tech-MIT, MIT

  • John Joannopoulos

    MIT

  • Marin Soljacic

    Physics, MIT, MIT, Massachusetts Institute of Technology