Hybrid-2D Excitonic Metasurfaces for Complex Amplitude Modulation
Tom Hoekstra, Mark L. Brongersma, Jorik van de Groep
TLDR
Hybrid-2D excitonic metasurfaces enable independent amplitude and phase control of visible light, crucial for dynamic wavefront shaping.
Key contributions
- Introduces hybrid-2D excitonic metasurfaces for independent amplitude and phase control in the visible regime.
- Uses an inverse-design pipeline to numerically demonstrate the platform's capabilities.
- Designs a pi-phase modulator with uniform amplitude using gate-tunable monolayer WS2.
- Achieves full 0-2pi phase and independent amplitude control with a second tunable monolayer.
Why it matters
Existing metasurfaces often fail to provide broad phase modulation without affecting amplitude. This work introduces a novel hybrid-2D excitonic platform that achieves independent amplitude and phase control. This advancement is vital for next-generation holographic displays and adaptive optics.
Original Abstract
Dynamic control of visible light is crucial for technologies such as holographic displays and adaptive optics. Passive metasurfaces can shape wavefronts at the subwavelength scale and active metasurfaces promise to extend this functionality into the temporal domain. However, existing metasurfaces for dynamic phase manipulation typically cannot deliver phase modulation across a broad range without causing variations in the scattering amplitude. Here, we use an inverse-design pipeline to numerically demonstrate a hybrid-2D excitonic metasurface platform offering independent amplitude and phase control in the visible regime. Harnessing the gate-tunable excitonic response of monolayer WS2 retrieved from experiments, we design a pi-phase modulator with a uniform amplitude profile. Adding a second tunable monolayer, we achieve independent control of the amplitude and phase over the full 0-2pi phase range, which we leverage for a reconfigurable beam-steering metadevice. Our results demonstrate how hybrid-2D excitonic metasurfaces enable electrically tunable wavefront shaping in the visible regime.
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