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Mode-locked optomechanical frequency combs in a graphene-silica microresonator

Hao Zhang, Yupei Liang, Teng Tan, S. C. Wen, Yan Yu, Ning An, Yanwu Liu, Yanhong Guo, Qihuang Gong, Yongjun Huang, Yunjiang Rao, Yun‐Feng Xiao, Qi‐Fan Yang, Baicheng Yao

2025Science Advances6 citationsDOIOpen Access PDF

Abstract

Mode locking is an essential process through which resonant modes achieve stable synchronization via nonlinear interactions. This self-organization allows photonic and electronic sources to produce pulsed waveforms and is vital for applications in ultrafast and high-field optics as well as frequency comb generation. Here, we report a mechanism to include photon-electron-phonon interactions, demonstrating the excitation of mode-locked optomechanical microcombs in a graphene-deposited silica microresonator, determined by the synergy of optomechanical back action and graphene saturable absorption. The circulating optical field induces mechanical oscillations that modulate the light wave, while Pauli blocking in graphene locks a single optomechanical mode, forming a localized coherent optical wave packet within a single microcavity. In addition, using frequency division techniques, the mode-locked optomechanical microcomb achieves repetition stability with phase noise reduced to −110.5 decibels relative to the carrier per hertz at a 1-hertz offset and an Allan deviation as low as 3 × 10 −12 @ 20 seconds, comparable to a standard rubidium clock.

Topics & Concepts

PhysicsFrequency combPhotonicsUltrashort pulseOpticsOptoelectronicsLaserPhase noiseNonlinear opticsOptomechanicsBeat (acoustics)Heterodyne detectionMode-lockingSaturable absorptionGrapheneWaveformOptical fieldInterferometryPhase (matter)ExcitationKerr effectMagnetic fieldRubidiumSynchronization (alternating current)Optical switchNoise (video)Optical fiberOptical pumpingMechanical and Optical ResonatorsAdvanced Fiber Laser TechnologiesPhotonic and Optical Devices
Mode-locked optomechanical frequency combs in a graphene-silica microresonator | Litcius