Yingning Wang
Orcid: 0000-0001-7876-5722
According to our database1,
Yingning Wang
authored at least 14 papers
between 2020 and 2024.
Collaborative distances:
Collaborative distances:
Timeline
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Bibliography
2024
Experimental Demonstration of Underwater Optical Ranging with Enhanced Accuracy Under Scattering Conditions Using Multiple Bessel Modes.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2024
Experimental Demonstration of an 8-Gbit/s QPSK Coherent Underwater Wireless Optical Communication Link Under Scattering Conditions.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2024
2023
Parabolic-Index Ring-Core Fiber Supporting High-Purity Orbital Angular Momentum Modes.
Sensors, April, 2023
Experimental Demonstration of 0.4-meter Ranging Through Underwater Scattering with 20-mm Resolution Using z- dependent Angular Rotation of a Spatially Structured Beam.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2023
2022
Over-Two-Octave Supercontinuum Generation of Light-Carrying Orbital Angular Momentum in Germania-Doped Ring-Core Fiber.
Sensors, 2022
1.3-Octave Coherent Supercontinuum Generation of OAM Mode in Ring-Core Fiber With All-Normal Dispersion.
IEEE Access, 2022
2021
IEEE Access, 2021
Air-Core Ring Fiber Guiding >400 Radially Fundamental OAM Modes Across S + C + L Bands.
IEEE Access, 2021
Hollow Ring-Core Photonic Crystal Fiber With >500 OAM Modes Over 360-nm Communications Bandwidth.
IEEE Access, 2021
2020
Beyond Two-Octave Coherent OAM Supercontinuum Generation in Air-Core As<sub>2</sub>S<sub>3</sub> Ring Fiber.
IEEE Access, 2020
Two-Octave Supercontinuum Generation of High-Order OAM Modes in Air-Core As₂S₃ Ring Fiber.
IEEE Access, 2020
Air-Core Ring Fiber With >1000 Radially Fundamental OAM Modes Across O, E, S, C, and L Bands.
IEEE Access, 2020
IEEE Access, 2020
1.6-Octave Coherent OAM Supercontinuum Generation in As<sub>2</sub>S<sub>3</sub> Photonic Crystal Fiber.
IEEE Access, 2020