T-shaped mode coupler for two-mode mode division multiplexing
スポンサーリンク
概要
- 論文の詳細を見る
We propose a novel type of mode coupler consisting of two identical rectangular few-mode waveguides with different orientations. Numerical simulation indicates that mode extinction ratio exceeding 20dB can be achieved by well-aligned waveguides.
著者
-
KUBOTA Hirokazu
NTT Network Innovation Laboratories
-
Takara Hidehiko
Ntt Network Innovation Laboratories
-
Morioka Toshio
Ntt Network Innovation Laboratories Ntt Corporation
-
Kubota Hirokazu
NTT Network Innovation Laboratory, NTT Co.
-
Takara Hidehiko
NTT Network Innovation Laboratory, NTT Co.
関連論文
- Distance Adaptation for Efficient Spectrum Resource Allocation in Elastic Optical Path Network
- WDM Signal Monitoring Utilizing Asynchronous Sampling and Wavelength Selection Based on Thermo-Optic Switch and AWG(Fiber-Optic Transmission)
- 160-Gbit/s Full Channel Optical Time-Division Demultiplexer Based on SOA-Array Integrated PLC and Its Application to OTDM Transmission Experiment(Fiber-Optic Transmission for Communications)
- The First Radioastronomical Observation with Photonic Local Oscillator
- Dispersion Tolerant 80- Gbit /s Carrier-Suppressed Return-to-Zero (CS-RZ) Format Generated by Using Phase- and Duty-Controlled Optical Time Division Multiplexing (OTDM) Technique
- Dispersion Controlled and Polarization Maintaining Photonic Crystal Fibers for High Performance Network Systems(Photonic Crystals and Their Device Applications)
- Highly Nonlinear Dispersion-Flattened Polarization-Maintaining Photonic Crystal Fiber in 1.55μm Region(Optoelectronics)
- Bandwidth-Flexible WDM System Based on Homodyne Detection and Power Splitting Configuration(Fiber-Optic Transmission for Communications)
- Optimal Design for Upgrading Optical Amplifier Systems Based on Cost-Effective Homodyne Detection(Fiber-Optic Transmission)
- Virtualized Optical Network (VON) for Future Internet and Applications
- Highly-efficient spectrum-sliced elastic optical network (SLICE) with per-channel variable capacity up to 1 Tb/s (光通信システム)
- Next Generation Optical Communication Technologies for Realizing Bandwidth Abundant Networking Capability
- Ultrafast and Wideband All-Optical Processing Technologies Towards Flexible Photonic Networks
- Highly Stable, Actively Mode-Locked Er-Doped Fiber Laser Utilizing Relaxation Oscillation as Detuning Monitor
- T-shaped mode coupler for two-mode mode division multiplexing
- Distance-Adaptive Path Allocation in Elastic Optical Path Networks
- Elastic Optical Path Network Architecture : Framework for Spectrally-Efficient and Scalable Future Optical Networks
- Simple analysis of water-filled hollow-core silica photonic bandgap fiber