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Ultra-slow-light and dynamically quantitative optical storage modulation via quasi-BICs

Dongwen Zeng, Zeyu Wu, Guiqiang Liu, Mengyu Yu, Xiaoshan Liu, Jing Chen, Chaojun Tang, Wei Du, Zhengqi Liu

2024Optics Letters15 citationsDOI

Abstract

We achieve dynamically tunable dual quasi-bound states in the continuum (quasi-BICs) by implementing them in a silicon–graphene multilayer composite structure and utilize the quasi-BIC modes to achieve ultra-large group delays (velocity of light slows down 10 5 times), showing 2–3 orders of magnitude higher than the group delays of previous electromagnetically induced transparency modes. The double-layer graphene holds great tuning capability and leads to the dramatically reduced group delay from 1929.82 to 1.58 ps with only 100 meV. In addition, the log-linear variation rule of group delay with Fermi level ( E f ) in the range of 0–10 meV is analyzed in detail, and the double-logarithmic function relationship between the group delay and quality factor ( Q -factor) is theoretically verified. Finally, the quantitative modulation of the optical storage is further realized in this basis. Our research provides ideas for the reform and upgrading of slow optical devices.

Topics & Concepts

OpticsModulation (music)Phase modulationOptical storage3D optical data storageMaterials sciencePhysicsOptoelectronicsPhase noiseAcousticsQuantum optics and atomic interactionsQuantum Information and CryptographyPhotonic and Optical Devices
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