Self-homodyne coherent detection using a 19-core fiber
スポンサーリンク
概要
- 論文の詳細を見る
We demonstrate a 105.1Tb/s self-homodyne transmission system using low-cost DFB lasers with dynamic path length adjustment and reduced DSP requirement in a 19-core-fiber with each signal core carrying 125x25Gbaud QPSK signals on a 50GHz grid.
- 2013-01-17
著者
-
Puttnam Ben
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Awaji Yoshinari
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Wada Naoya
Photonic Network Group National Institute Of Information And Communications Technology (nict)
-
SAKAGUCHI Jun
Photonic Network System Laboratory
-
LUIS Ruben
Photonic Network System Laboratory
-
KLAUS Werner
Photonic Network System Laboratory
-
KANNO Atsushi
Lightwave Devices Laboratory, National Institute of Information and Communications Technology (NICT)
-
KAWANISHI Tetsuya
Lightwave Devices Laboratory, National Institute of Information and Communications Technology (NICT)
-
DELGADO-MENDINUETA Jose-Manuel
Photonic Network System Laboratory
関連論文
- Investigating the Performance and Limits of a Burst-Mode EDFA in Optical Packet and Burst-Switched Networks
- Coherent Code-Shift-Keying OCDMA System
- Coherent Code-Shift-Keying OCDMA System
- Towards regeneration of BPSK signals in periodically-poled-lithium-niobate waveguides
- Towards regeneration of BPSK signals in periodically-poled-lithium-niobate waveguides (レーザ・量子エレクトロニクス)
- Towards regeneration of BPSK signals in periodically-poled-lithium-niobate waveguides (光エレクトロニクス)
- Towards regeneration of BPSK signals in periodically-poled-lithium-niobate waveguides (フォトニックネットワーク)
- Combining mitigation and compensation of EDFA gain transients in dynamic optical networks (フォトニックネットワーク)
- Photonic Network Technologies for New Generation Network
- Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides
- Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides
- Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides
- Investigating the Performance of a Transient-Suppressed EDFA in Optical Packet and Burst-Switched Networks
- Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides
- Challenges in Coherent Optical Packet Switching
- All-optical NRZ-OOK to PSK-Manchester Modulation Format Conversion
- Schemes for Black-Box Phase Regeneration Using Phase Sensitive Amplifiers based on PPLN Waveguides
- Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems
- In-Service Path-Length Alignment for Self-Homodyne Coherent-Detection - Spatial Division Multiplexing Systems
- Self-homodyne coherent detection using a 19-core fiber
- Self-homodyne coherent detection using a 19-core fiber
- Self-homodyne coherent detection using a 19-core fiber
- Self-homodyne coherent detection using a 19-core fiber
- Self-homodyne coherent detection using a 19-core fiber
- In-Service Path-Length Alignment for Self-Homodyne Coherent-Detection - Spatial Division Multiplexing Systems
- In-Service Path-Length Alignment for Self-Homodyne Coherent-Detection - Spatial Division Multiplexing Systems
- In-Service Path-Length Alignment for Self-Homodyne Coherent-Detection - Spatial Division Multiplexing Systems
- In-Service Path-Length Alignment for Self-Homodyne Coherent-Detection - Spatial Division Multiplexing Systems
- Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems
- Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems
- Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems
- Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems
- Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems
- Self-homodyne coherent detection using a 19-core fiber
- In-Service Path-Length Alignment for Self-Homodyne Coherent-Detection-Spatial Division Multiplexing Systems
- Polarization Diversity Coherent Receiver for Self-Homodyne Detection of Polarization-Multiplexed Pilot Tone Signals
- Single-pump, Tunable Wavelength Converter Based on PPLN Waveguides Designed by the Layer Peeling
- Fast Equalizer Kernel Initialization for Coherent PDM-QPSK Burst-mode Receivers Based on Stokes Estimator
- Demonstration of an offline PDM-16QAM coherent burst-mode receiver in a 10 Tbit/s optical switching node
- Demonstration of an offline PDM-16QAM coherent burst-mode receiver in a 10 Tbit/s optical switching node
- Energy Efficient Modulation Formats for Multi-Core-Fibers
- Polarization and Modulation-Format Insensitive Self-Homodyne Detection
- Polarization and Modulation-Format Insensitive Self-Homodyne Detection
- All-optical NRZ-OOK to PSK-Manchester Modulation Format Conversion
- Challenges in Coherent Optical Packet Switching
- Schemes for Black-Box Phase Regeneration Using Phase Sensitive Amplifiers based on PPLN Waveguides
- Polarization and Modulation-Format Insensitive Self-Homodyne Detection
- Energy Efficient Modulation Formats for Multi-Core-Fibers
- Polarization and Modulation-Format Insensitive Self-Homodyne Detection