Benhai Wang joined RCALS as a postdoctoral fellow in 2025. He joined the RCALS team at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, in 2022as a PhD student, working on ultrafast fiber lasers, and received his Doctor of Engineering degree in 2025. His research focuses on ultrafast fiber lasers, soliton dynamics, and performance characterization and applications of microstructured optical fibers.

Selected publications

[1] Benhai Wang, Zeqing Li, Wenbin He, et al. Intrinsic Discrepancy of Multi-Soliton Interferogram in Dispersive Fourier Transform Measurements Due to Impulsive Response of Fast Electronics[J]. Journal of Lightwave Technology, 42, 5698-5703 (2024).

[2] Benhai Wang, Xiaocong Wang†, Wenbin He, et al. Stochastic Collapse and Recovery of Optical Solitons in Harmonic Mode-locked Lasers Under Pump Perturbations[J]. Optics Letters, 50, 6145-6148 (2025).

[3] Xiaocong Wang, Benhai Wang, Wenbin He, et al. Russell. Retiming dynamics of harmonically mode-locked laser solitons in a self-driven optomechanical lattice[J]. Light: Science & Applications. 14, 66 (2025).

[4] Xiaocong Wang, Benhai Wang, Wenbin He, et al. Observation of dynamics of harmonic order self-adaptation in optoacoustically mode-locked fiber laser[J]. Optics Express, 33, 7072-7080 (2025).

[5] Zeqing Li, Benhai Wang, Wenbin He, et al. Quadratic Phase Mismatch in Multisoliton Interferograms Based on Time-stretched Dispersive Fourier Transformation[J]. Physical Review A, 109, 053524 (2024).

[6] Benhai Wang, Haobin Han, Lijun Yu, et al. Generation and dynamics of soliton and soliton molecules from a VSe2/GO-based fiber laser [J]. Nanophotonics, 11, 129-137 (2022).

[7] Benhai Wang, Lijun Yu, Haobin Han, et al. Harmonic dual-wavelength and multi-soliton pattern fiber laser based on GO-Sb2Se3 saturable absorbers [J]. Optics & Laser Technology, 146, 107590 (2022).

[8] Benhai Wang, Yueyue Wang. Fractional white noise functional soliton solutions of a wick-type stochastic fractional NLSE [J]. Applied Mathematics Letters, 110, 106583 (2020).