期刊
PHOTONICS RESEARCH
卷 11, 期 3, 页码 456-462出版社
CHINESE LASER PRESS
DOI: 10.1364/PRJ.481020
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A tunable perfect absorber with large dynamic modulation range is achieved by manipulating Friedrich-Wintgen bound states in the continuum (F-W BICs). By engineering the Fermi level of graphene gratings, the F-W BIC can be dynamically modulated, resulting in a modulation range of up to 3.5 THz.
Dynamical control of perfect absorption plays an indispensable role in optical switch and modulators. However, it always suffers from the limited modulation range, small depth, and susceptible absorption efficiencies. Here, we propose a new strategy based on Friedrich-Wintgen bound states in the continuum (F-W BICs) to realize a tunable perfect absorber with large dynamic modulation range. For proof of concept, we demonstrate a pentaband ultrahigh absorption system consisting of graphene gratings and graphene sheets through elaborately tuning F-W BIC. The nature of the F-W BIC arises from the destructive interference between Fabry-Perot resonance and guided mode resonance modes in the coherent phase-matching condition. The radiation channels are avoided from crossing. The BIC can be dynamically modulated by engineering the Fermi level of graphene gratings, which breaks the traditional modulation methods with an incidence angle. Remarkably, the perfect absorber with this F-WBIC approach achieves the largest modulation range of up to 3.5 THz. We believe that this work provides a new way to dynamically engineer perfect absorption and stimulates the development of multiband ultracompact devices. (c) 2023 Chinese Laser Press
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