Chengkun Cai
According to our database1,
Chengkun Cai
authored at least 11 papers
between 2018 and 2024.
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Bibliography
2024
T<sup>2</sup> of Thoughts: Temperature Tree Elicits Reasoning in Large Language Models.
CoRR, 2024
Experimental Demonstration of 51.2 Tb/s Self-Homodyne Coherent Interconnects on a 3D Photonic Chip Inspiring Coherent Technology Transfer to Centimeter-Scale Ultra-Short-Reach Applications.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2024
Experimental Demonstration of Single-wavelength net 16.1Tb/s Self-Homodyne Coherent Transmission over a 24-Core Fiber.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2024
Heterogeneous integrated fiber-chip system enabling 192-channel and 20-Tbit/s multi-dimensional optical signal transmission and processing.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2024
2023
19-Core SDM Self-Homodyne Coherent Transmission using Fan-In/Fan-Out Photonic Lantern.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2023
2019
Experimental Demonstration of an Underwater Wireless Optical Link Employing Orbital Angular Momentum (OAM) Modes with Fast Auto-Alignment System.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2019
2018
First Demonstration of Orbital Angular Momentum (OAM) Distributed Raman Amplifier over 18-km OAM Fiber with Data-Carrying OAM Multiplexing and Wavelength-Division Multiplexing.
Proceedings of the Optical Fiber Communications Conference and Exposition, 2018
C + L Band Distributed Few-mode Raman Amplification with Flattened Gain for Mode-division-multiplexed Optical Transmission over 75-km Few-mode Fiber.
Proceedings of the Optical Fiber Communications Conference and Exposition, 2018
First Demonstration of Ultra-Low-Noise Long-Haul 110-km MDM+WDM Transmission of Orbital Angular Momentum (OAM) Modes with 1st / 2nd-Order Distributed Raman Amplifier.
Proceedings of the European Conference on Optical Communication, 2018
Gain-Flattened C+L Band Distributed Raman Amplification for MDM and WDM Transmission of Orbital Angular Momentum (OAM) Modes Over 100-km Large-Core Fiber.
Proceedings of the European Conference on Optical Communication, 2018