GeAs<sub>2</sub> Saturable Absorber for Ultrafast and Ultranarrow Photonic Applications
Shunxiang Liu, Gang Li, Feng Zhu, Hongfu Huang, Jinsheng Lu, Junle Qu, Liang Li, Qiao Wen
Abstract
Abstract As a new IV–V group semiconductor, germanium‐diarsenide (GeAs 2 ) compounds have attracted considerable attention due to their outstanding optical and electrical properties, thickness‐dependent bandgap, in‐plane anisotropy, and excellent optical absorption. However, the potential of GeAs 2 in the field of ultrafast and ultranarrow fiber laser has not been studied. In this article, a high‐quality GeAs 2 nanosheets saturable absorber (SA) is successfully prepared by liquid‐phase exfoliation. The nonlinear optical characteristics of GeAs 2 nanosheets have been investigated based on a balanced twin‐detector measurement system. The modulation depth, nonsaturable loss, and saturation intensity are measured to be 5.2%, 24%, and 1.23 GW cm −2 , respectively. GeAs 2 has been successfully applied as an SA in an ultrafast and single‐frequency fiber laser. A stable mode‐locked laser pulses operation with a duration as short as 371 fs and a repetition rate of 8.19 MHz at a wavelength of 1560 nm is achieved. Moreover, ultranarrow fiber lasers with a high signal‐to‐noise ratio of 80 dB and a linewidth of ≈678 Hz are obtained. The findings validate that 2D GeAs 2 can be used as an SA and has promising applications in ultrafast and ultranarrow photonics.