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

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

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 ΔT...

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Veröffentlicht in:Optics letters 2023-05, Vol.48 (9), p.2325-2328
Hauptverfasser: Yao, Danyang, Jiang, Zhi, Zhang, Yong, Xie, Han, Wang, Tongtong, Wang, Jianguo, Gan, Xuetao, Han, Genquan, Liu, Yan, Hao, Yue
Format: Artikel
Sprache:eng
Schlagworte:
Light modulation
Optical communication
Photon absorption
Photonic crystals
Silicon
Temperature gradients
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Zusammenfassung: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.
ISSN:0146-9592
1539-4794
DOI:10.1364/OL.485678