Multiple bound states in the continuum based on the dielectric metasurface

Abstract: Optical metasurfaces with high quality factors (Q-factors) of bound states in the continuum (BICs) can substantially boost light–matter interaction for various applications in ultrathin and active metadevices. In this paper, we propose a metasurface supporting both at Γ BICs and off Γ BICs, and they can be modulated regularly. The sensitivities of the monolayer and bi-layer structures can reach 157.918 nm/RIU and 165.76 nm/RIU, respectively, at incident angles of 0.01 deg. For the bi-layer metasurface, four BI… Show more

“…The suppression of radiation leakage is more elusive, as it requires the creation of a completely closed system that neither allows the coupling of far-field electromagnetic energy into resonances nor the detection of these resonances in the far-field [7]. The non-radiative bound states in the continuum (BIC) have emerged as the most promising candidate to achieve theoretically infinite Q factor [11][12][13][14][15]. It refers to the embedded trapped modes in the continuous spectrum of radiating waves with vanishing resonance linewidth and infinite Q factor (γ = 0, Q = ω 0 /2γ) [13].…”

Dielectric terahertz metasurface governed by symmetry-protected BIC for ultrasensitive sensing

“…The suppression of radiation leakage is more elusive, as it requires the creation of a completely closed system that neither allows the coupling of far-field electromagnetic energy into resonances nor the detection of these resonances in the far-field [7]. The non-radiative bound states in the continuum (BIC) have emerged as the most promising candidate to achieve theoretically infinite Q factor [11][12][13][14][15]. It refers to the embedded trapped modes in the continuous spectrum of radiating waves with vanishing resonance linewidth and infinite Q factor (γ = 0, Q = ω 0 /2γ) [13].…”

Dielectric terahertz metasurface governed by symmetry-protected BIC for ultrasensitive sensing