Litcius/Paper detail

In <sub>2</sub> Se <sub>3</sub> nanosheets for harmonic mode-locked fiber laser

Chong Wang, Lirong Jing, Xiaohui Li, Yamin Wang, Wenfeng Luo, Peiguang Yan, Mengjia Qu, Ziyan Wu

2020Nanotechnology23 citationsDOI

Abstract

Abstract Two-dimensional materials with a sheet structure have excellent optical, electrical and mechanical properties, and have attracted much attention in recent years, especially In 2 Se 3 (the N-type semiconductor compound), which has a rapid development in the fields of materials science and optical communication. In this paper, the nonlinear saturation absorption characteristics of In 2 Se 3 are studied. The In 2 Se 3 nanosheet dispersion can be used in ultrafast photonics applications. The nonlinear absorption is measured by power dependent method, and the modulation depth and saturation intensity are 3.8% and 246.6 MW cm −2 , respectively. More importantly, In 2 Se 3 is used as a saturable absorber (SA) in a passively mode-locked erbium-doped fiber laser. The proposed mode-locked fiber laser is demenstrated with a center wavelength of 1529.4 nm, a fundamental frequency of 5.9 MHz, a spectral width of 3.96 nm, a pulse width of 1.38 ps, and a signal-to-noise ratio of 55 dB. For the first time, harmonic mode-locking with a high-repetition rate of 431 MHz is achieved when the pump power is 360 mW corresponding to 73rd-order harmonic mode locking. It can be seen that In 2 Se 3 is indeed a new excellent photonic material, which can be used in fiber optic communication, SAs photonics, laser material processing and light modulators.

Topics & Concepts

Materials scienceLaserFiber laserPhotonicsSaturable absorptionUltrashort pulseOptoelectronicsOpticsMode-lockingSaturation (graph theory)ErbiumWavelengthDopingCombinatoricsMathematicsPhysicsAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsAdvanced Fiber Optic Sensors