📝 SummarXiv

Abstract

Polarization- and wavelength-sensitive absorbers for homogeneous electromagnetic waves are crucial in photovoltaics, imaging and telecommunications. Here, we report on an absorber selective to the topological structure of light. An electromagnetic beam or pulse containing polarization singularities can be fully dissipated by the absorber, while plane waves are rejected regardless of their polarization. The absorber comprises a conical mirror coaxial with the incident propagating beam, which the mirror converts into a standing wave defined by the geometrical Pancharatnam-Berry phase accumulated upon reflection on the mirror. If a "nanowire" absorber is placed along the axis of the cone, singularly-polarized light can create an antinode of the standing wave at the absorber and nearly perfect dissipation of the light's energy is achievable regardless of the wavelength. The selective absorber of topologically structured light is of interest for energy harvesting, detection, filtering, and telecommunications applications.