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Palladium selenide as a broadband saturable absorber for ultra‐fast photonics

Huanian Zhang, Pengfei Ma, Ming‐Xiao Zhu, Wenfei Zhang, Guomei Wang, Shenggui Fu

2020Nanophotonics115 citationsDOIOpen Access PDF

Abstract

Abstract Air‐stable broadband saturable absorbers (SAs) exhibit a promising application potential, and their preparations are also full of challenges. Palladium selenide (PdSe 2 ), as a novel two‐dimensional (2D) layered material, exhibits competitive optical properties including wide tunable bandgap, unique pentagonal atomic structure, excellent air stability, and so on, which are significant in designing air‐stable broadband SAs. In our work, theoretical calculation of the electronic band structures and bandgap characteristics of PdSe 2 are studied first. Additionally, PdSe 2 nanosheets are synthesized and used for designing broadband SAs. Based on the PdSe 2 SA, ultrafast mode‐locked operations in 1‐ and 1.5‐μm spectral regions are generated successfully. For the mode‐locked Er‐doped operations, the central wavelength, pulse width, and pulse repetition rate are 1561.77 nm, 323.7 fs, and 20.37 MHz, respectively. Meanwhile, in all normal dispersion regions, mode‐locked Yb‐doped fiber laser with 767.7‐ps pulse width and 15.6‐mW maximum average output power is also generated successfully. Our results fully reveal the capacity of PdSe 2 as a broadband SA and provide new opportunities for designing air‐stable broadband ultra‐fast photonic devices.

Topics & Concepts

BroadbandMaterials scienceSaturable absorptionOptoelectronicsUltrashort pulsePhotonicsSelenideBand gapLaserDispersion (optics)DopingWavelengthFiber laserOpticsPhysicsSeleniumMetallurgyAdvanced Fiber Laser TechnologiesLaser-Matter Interactions and ApplicationsPhotonic Crystal and Fiber Optics
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