Coherent Perfect Absorption of Arbitrary Wavefronts at an Exceptional Point

Helmut Hörner; Lena Wild; Yevgeny Slobodkin; Gil Weinberg; Ori Katz; Stefan Rotter

doi:10.1103/physrevlett.133.173801

Coherent Perfect Absorption of Arbitrary Wavefronts at an Exceptional Point

Helmut Hörner^*
, Lena Wild
, Yevgeny Slobodkin
, Gil Weinberg
, Ori Katz^*
, Stefan Rotter^*

^*Corresponding author for this work

The Institute of Applied Physics

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

A coherent perfect absorber exploits the interferometric nature of light to deposit all of a light field's incident energy into an otherwise weakly absorbing sample. The downside of this concept is that the necessary destructive interference in coherent perfect absorbers gets easily destroyed both by spectrally or spatially detuning the incoming light field. Each of these two limitations has recently been overcome by insights from exceptional-point physics and by using a degenerate cavity, respectively. Here, we show how these two concepts can be combined into a new type of cavity design, which allows broadband exceptional-point absorption of arbitrary wavefronts. We present two possible implementations of such a massively degenerate exceptional-point absorber and compare analytical results with numerical simulations.

Original language	English
Article number	173801
Journal	Physical Review Letters
Volume	133
Issue number	17
DOIs	https://doi.org/10.1103/physrevlett.133.173801
State	Published - 25 Oct 2024

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© 2024 American Physical Society.

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abstract = "A coherent perfect absorber exploits the interferometric nature of light to deposit all of a light field's incident energy into an otherwise weakly absorbing sample. The downside of this concept is that the necessary destructive interference in coherent perfect absorbers gets easily destroyed both by spectrally or spatially detuning the incoming light field. Each of these two limitations has recently been overcome by insights from exceptional-point physics and by using a degenerate cavity, respectively. Here, we show how these two concepts can be combined into a new type of cavity design, which allows broadband exceptional-point absorption of arbitrary wavefronts. We present two possible implementations of such a massively degenerate exceptional-point absorber and compare analytical results with numerical simulations.",

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AU - Katz, Ori

AU - Rotter, Stefan

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AB - A coherent perfect absorber exploits the interferometric nature of light to deposit all of a light field's incident energy into an otherwise weakly absorbing sample. The downside of this concept is that the necessary destructive interference in coherent perfect absorbers gets easily destroyed both by spectrally or spatially detuning the incoming light field. Each of these two limitations has recently been overcome by insights from exceptional-point physics and by using a degenerate cavity, respectively. Here, we show how these two concepts can be combined into a new type of cavity design, which allows broadband exceptional-point absorption of arbitrary wavefronts. We present two possible implementations of such a massively degenerate exceptional-point absorber and compare analytical results with numerical simulations.

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Coherent Perfect Absorption of Arbitrary Wavefronts at an Exceptional Point

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