-
(UTC - 07:00)
|
Recalibration Learning: Enabling Universal Transfer of ML Model of Gain and NF for Remote Optically Pumped Amplifiers (M3I.2)
Arthur Minakhmetov Alcatel Submarine Networks
|
-
(UTC - 07:00)
|
Recent Advances in Measurement-Device-Independent Quantum Key Distribution (M3H.2)
Xiongfeng Ma Tsinghua University
Tutorial
SC-Q: Quantum Devices, Systems and Networking
|
-
(UTC - 07:00)
|
An Operator’s View on the Future Optical Networks, and Enabling Device Technologies: ~Innovative Optical and Wireless Network Program~ (M3D.2)
Masahito Tomizawa NTT Innovative Devices
Invited
|
-
(UTC - 07:00)
|
Dust Insensitive, Low Loss, and Low Mating Force Multi-Fiber Expanded Beam Optical Ferrule and Connectors (M3A.3)
Changbao Ma 3M Company
D1: Advanced Prototyping, Packaging and Integration
S1: Datacom Subsystems and Systems
|
-
(UTC - 07:00)
|
High-Performance Thin-Film Lithium Niobate Mach-Zehnder Modulator on 8-Inch Silicon Substrate (M3K.2)
Jingjie Zhou Shanghai University
D3: Active Components
S3: Transmission Systems
|
-
(UTC - 07:00)
|
Feedback Tolerant Quantum Dot Lasers Integrated With 300mm Silicon Photonics (M3C.2)
Duanni Huang Intel Corporation
D3: Active Components
S3: Transmission Systems
|
-
(UTC - 07:00)
|
Fast, Reliable and Portable Low-Loss Antiresonant Hollow-Core Fiber Fusion Splicing (M3J.3)
Tristan Kremp OFS Laboratories
D4: Fibers and Propagation Physics
S4: Optical Processing, Microwave Photonics and Fiber-sensing
|
-
(UTC - 07:00)
|
Technologies Enabling Ultrafast Short-Reach Transmission (M3E.3)
Qian Hu Nokia Bell Labs
Invited
|
-
(UTC - 07:00)
|
Optical Network Design With High Symbol Rate Flexible Coherent Transceivers (M3I.3)
Thomas Richter Adtran Networks North America
Invited
|
-
(UTC - 07:00)
|
Next-Generation Optical Devices for Future Network (M3D.3)
Hiromi Oohashi Furukawa Electric Co., LTD
Invited
|