Frequency modulation of terahertz microcavity via strong coupling with plasmonic resonators

Tunable terahertz (THz) microcavities are crucial for the compact on -chip THz devices, aiming to future cloud -based computing, and artificial -intelligence technologies. However, the solutions to effectively modulate THz microcavities remain elusive. Strong coupling has been widely demonstrated in many configurations at different ambient conditions to date and may serve as a promising tool to modulate THz microcavities. Here, we schematically design a microcavity-plasmon hybrid system, and propose an effective approach to modulating the resonant frequencies of THz microcavities by the microcavity-resonator strong coupling. In this case, we observed the strongly coupling states, where the resultant two-polariton branches exhibit an anti -crossing splitting in the frequency domain, experimentally exhibiting a similar to 6.2% frequency modulation to the microcavity compared to the uncoupled case. This work provides an efficient approach to modulating chip -scale THz microcavities, thereby facilitating the development and application of compact THz integrated devices, further empowering the evolution of future information processing and intelligent computing system. (c) 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement