Spatial coherence filtering of normal incidence light through leaky mode engineering | Zendy

Hang Li | Zendy; Mohammad Haerinia | Zendy; Bowen Zheng | Zendy; Sensong An | Zendy; Hong Tang | Zendy; Yunxi Dong | Zendy; Clayton Fowler | Zendy; Wei Guo | Zendy; Hualiang Zhang | Zendy; Michael Ghebrebrhan | Zendy

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Spatial coherence filtering of normal incidence light through leaky mode engineering

Author(s) -

Hang Li,

Mohammad Haerinia,

Bowen Zheng,

Sensong An,

Hong Tang,

Yunxi Dong,

Clayton Fowler,

Wei Guo,

Hualiang Zhang,

Michael Ghebrebrhan

Publication year - 2022

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/5.0082810

Subject(s) - coherence (philosophical gambling strategy) , zigzag , transmittance , optics , spatial coherence , coherence time , materials science , optoelectronics , leaky mode , physics , mathematics , quantum mechanics , laser , geometry , single mode optical fiber , radiation mode

Filtering light by coherence by metasurfaces would enable compact, integrable coherence filters. A recent such proposal centered on a metasurface of zigzags. Here, we show that spatial coherence filtering can be achieved at normal incidence with a similar zigzag metasurface and can be traced to the band structure of the leaky modes of the thin film structure. We fabricate a metasurface of zigzags etched through a gold film deposited on a GaAs substrate and measure the transmittance of long wave infrared radiation. Selectivity matches predictions based on the band structure of fully coherent radiation. Furthermore, the degree of coherence filtering is shown to be controlled by the Q-factor of leaky modes.

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