High Output Mode-locked Laser Empowered by Defect Regulation in 2D BiOSe Saturable Absorber

Overview

Journal Nat Commun

Specialty Biology

Date 2022 Jul 5

PMID 35790761

Authors

Junting Liu

Fang Yang

Junpeng Lu

Shuai Ye

Haowen Guo

Hongkun Nie

Jialin Zhang

Jingliang He

Baitao Zhang

Zhenhua Ni

Affiliations

Soon will be listed here.

Abstract

Atomically thin BiOSe has emerged as a novel two-dimensional (2D) material with an ultrabroadband nonlinear optical response, high carrier mobility and excellent air stability, showing great potential for the realization of optical modulators. Here, we demonstrate a femtosecond solid-state laser at 1.0 µm with BiOSe nanoplates as a saturable absorber (SA). Upon further defect regulation in 2D BiOSe, the average power of the mode-locked laser is improved from 421 mW to 665 mW, while the pulse width is decreased from 587 fs to 266 fs. Moderate Ar plasma treatments are employed to precisely regulate the O and Se defect states in BiOSe nanoplates. Nondegenerate pump-probe measurements show that defect engineering effectively accelerates the trapping rate and defect-assisted Auger recombination rate of photocarriers. The saturation intensity is improved from 3.6 ± 0.2 to 12.8 ± 0.6 MW cm after the optimized defect regulation. The enhanced saturable absorption and ultrafast carrier lifetime endow the high-performance mode-locked laser with both large output power and short pulse duration.

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