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Ultrahigh thermal-efficient all-optical silicon photonic crystal nanobeam cavity modulator with TPA-induced thermo-optic effect

Danyang Yao, Zhi Jiang, Yong Zhang, Han Xie, Tongtong Wang, Jianguo Wang, Xuetao Gan, Genquan Han, Yan Liu, Yue Hao

2023Optics Letters11 citationsDOI

Abstract

We propose and experimentally demonstrate an on-chip all-optical silicon photonic crystal nanobeam cavity (PCNBC) modulator. With the advantages of the strong two-photon absorption (TPA)-induced thermo-optic (TO) effect, ultrahigh thermal-efficient tuning with π phase shift temperature difference ΔTπ of 0.77°C and power Pπ of 0.26 mW is implemented. Moreover, the all-optical modulation is carried out by a pulsed pump light with an average switching power of 0.11 mW. The response times for the rising and falling edges are 7.6 µs and 7.4 µs, respectively. Such a thermal-efficient modulator is poised to be the enabling device for large-scale integration optical signal control systems.

Topics & Concepts

OpticsMaterials sciencePhotonic crystalOptoelectronicsSiliconThermalOptical modulatorElectro-optic modulatorElectron-beam lithographyPhotonic integrated circuitPhase modulationPhysicsNanotechnologyPhase noiseLayer (electronics)MeteorologyResistPhotonic and Optical DevicesPhotonic Crystals and ApplicationsAdvanced Fiber Laser Technologies
Ultrahigh thermal-efficient all-optical silicon photonic crystal nanobeam cavity modulator with TPA-induced thermo-optic effect | Litcius