Professor | Nankai University | China
Prof. Dr. Pan Wang is an accomplished academic and researcher at the Institute of Modern Optics, Nankai University, with expertise in Fiber optics and photonics, where his career reflects strong dedication to innovation in optical science. He holds advanced degrees in optoelectronic technology and science as well as optical engineering and completed postdoctoral research at the Max-Planck Institute for the Science of Light, which strengthened his foundation in Fiber-based technologies. His professional experience spans across international institutions, contributing significantly to nonlinear laser physics, femtosecond Fiber lasers, 2-D material-based nonlinear optics, mid-IR laser physics, and novel photonic crystal Fiber development, which have positioned him at the forefront of Fiber research. His scholarly achievements are marked by influential publications, research projects, and collaborations that highlight his role in advancing Fiber applications for scientific and industrial use. Prof. Dr. Pan Wang has earned recognition through awards and honors that reflect his impactful contributions to Fiber optics and his ability to lead cutting-edge projects. His research skills demonstrate mastery in experimental design, laser systems, nonlinear optics, and Fiber technology integration. The conclusion of his academic and research journey so far illustrates his role as a leader in Fiber innovations, a mentor to future scientists, and a driving force in developing next-generation Fiber-based optical systems, ensuring that his work continues to contribute globally to the advancement of modern optics.
Profile: Scopus
Featured Publications
1. (2025). Pulsating synchronized trichromatic pulse compound based on four-wave mixing effect in a passively mode-locked fiber laser. Optics and Laser Technology.
2. (2025). Spatiotemporal dynamics of dissipative solitons in anomalous dispersion few-mode fiber lasers. Chaos, Solitons & Fractals.
3. (2025). Ultra-low loss bending resistant few-mode hollow core anti-resonant fiber with nested elliptical tubes. Optics and Laser Technology.
4. (2025). Ultra-low-loss all-fiber 976/1550 nm few-mode pumping/signal multiplexer for four-mode Erbium-doped fiber amplifier. Optics and Laser Technology.
5. (2025). Ultra-fast and universal vector mode analyzer based on 4D Jones vector and intensity-only detection. Laser & Photonics Reviews.