SnSe-Coated Microfiber Resonator for All-Optical Modulation

In this study, a tin monoselenide (SnSe)-based all-optical modulator is firstly demonstrated with high tuning efficiency, broad bandwidth, and fast response time. The SnSe nanoplates are deposited in the microfiber knot resonator (MKR) on MgF2 substrate and change its transmission spectra by the external laser irradiation. The SnSe nanoplates and the microfiber are fabricated using the liquid-phase exfoliation method and the heat-flame taper-drawing method, respectively. Due to the strong absorption and enhanced light-matter interaction of the SnSe nanoplates, the largest transmitted power tunability is approximately 0.29 dB/mW with the response time of less than 2 ms. The broad tuning bandwidth is confirmed by four external pump lights ranging from ultraviolet to near-infrared. The proposed SnSe-coated microfiber resonator holds promising potential for wide application in the fields of all-optical tuning and fiber sensors.

Automated summary

This study demonstrates a tin monoselenide (SnSe)-based all-optical modulator with high tuning efficiency, broad bandwidth, and fast response time. The SnSe nanoplates and microfiber resonator are fabricated using the liquid-phase exfoliation method and the heat-flame taper-drawing method, respectively. The all-optical modulator shows strong absorption and enhanced light-matter interaction, leading to high transmitted power tunability and fast response time.