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Luo ZC, Liu M, Guo ZN, et al. Microfiber-based few-layer black phosphorus saturable absorber for ultra-fast fiber laser. Opt Express. 2015;23(15):20030-9doi: 10.1364/OE.23.020030.
Luo, Z. C., Liu, M., Guo, Z. N., Jiang, X. F., Luo, A. P., Zhao, C. J., Yu, X. F., Xu, W. C., & Zhang, H. (2015). Microfiber-based few-layer black phosphorus saturable absorber for ultra-fast fiber laser. Optics express, 23(15), 20030-9. https://doi.org/10.1364/OE.23.020030
Luo, Zhi-Chao, et al. "Microfiber-based few-layer black phosphorus saturable absorber for ultra-fast fiber laser." Optics express vol. 23,15 (2015): 20030-9. doi: https://doi.org/10.1364/OE.23.020030
Luo ZC, Liu M, Guo ZN, Jiang XF, Luo AP, Zhao CJ, Yu XF, Xu WC, Zhang H. Microfiber-based few-layer black phosphorus saturable absorber for ultra-fast fiber laser. Opt Express. 2015 Jul 27;23(15):20030-9. doi: 10.1364/OE.23.020030. PMID: 26367661.
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Opt Express. 2015 Jul 27;23(15):20030-9. doi: 10.1364/OE.23.020030.

Microfiber-based few-layer black phosphorus saturable absorber for ultra-fast fiber laser.

Optics express

Zhi-Chao Luo, Meng Liu, Zhi-Nan Guo, Xiao-Fang Jiang, Ai-Ping Luo, Chu-Jun Zhao, Xue-Feng Yu, Wen-Cheng Xu, Han Zhang

PMID: 26367661 DOI: 10.1364/OE.23.020030

Abstract

Few-layer black phosphorus (BP), as the most alluring graphene analogue owing to its similar structure as graphene and thickness dependent direct band-gap, has now triggered a new wave of research on two-dimensional (2D) materials based photonics and optoelectronics. However, a major obstacle of practical applications for few-layer BPs comes from their instabilities of laser-induced optical damage. Herein, we demonstrate that, few-layer BPs, which was fabricated through the liquid exfoliation approach, can be developed as a new and practical saturable absorber (SA) by depositing few-layer BPs with microfiber. The saturable absorption property of few-layer BPs had been verified through an open-aperture z-scan measurement at the telecommunication band. The microfiber-based BP device had been found to show a saturable average power of ~4.5 mW and a modulation depth of 10.9%, which is further confirmed through a balanced twin detection measurement. By integrating this optical SA device into an erbium-doped fiber laser, it was found that it can deliver the mode-locked pulse with duration down to 940 fs with central wavelength tunable from 1532 nm to 1570 nm. The prevention of BP from oxidation through the "lateral interaction scheme" owing to this microfiber-based few-layer BP SA device might partially mitigate the optical damage problem of BP. Our results not only demonstrate that black phosphorus might be another promising SA material for ultrafast photonics, but also provide a practical solution to solve the optical damage problem of black phosphorus by assembling with waveguide structures such as microfiber.

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