Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides
スポンサーリンク
概要
- 論文の詳細を見る
We investigate the phase squeezing characteristics of non-degenerate phase-sensitive-amplifiers (PSA) based on periodically-poled-lithium-niobate (PPLN) waveguides. We implement two PSA configurations with phase insensitive idler generation performed in both highly-non-linear-fiber (HNLF) and PPLN waveguides. In both cases we demonstrate regeneration of a noisy BPSK signal, despite net signal attenuation in the phase sensitive PPLN, and show that the level of phase squeezing varies with the phase sensitive dynamic range (PSDR). We observe that weak idler generation in the PPLN limits the achievable PSDR and that use of HNLF for idler generation leads to the largest PSDR. However, in phase regeneration measurements, we observe that significant amplitude noise, increasing with the PSDR, is added to the signal, originating from pump phase modulation required to overcome stimulated Brillouin scattering.
- 2011-10-20
著者
-
Puttnam Ben
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Wada Naoya
National Inst. Information And Communications Technol. Tokyo Jpn
-
Mazroa Daniel
Budapest University Of Technology And Economics Dept. Of Telecommunications And Media Informatics
-
Shinada Satoshi
National Institute Of Information And Communications Technology New Generation Network Research Cent
-
Wada Naoya
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Wada Naoya
National Institute Of Information And Communications Technology New Generation Network Research Cent
-
Mazroa Daniel
Dept. Of Telecommunications & Media Informatics Budapest University Of Technology & Economic
-
Puttnam Ben
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Shinada Satoshi
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
MAZROAI Daniel
Dept. of Telecommunications & Media Informatics, Budapest University of Technology & Economics
-
Shinada Satoshi
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Puttnami Ben
Photonic Network Group New Generation Network Research Center National Institute Of Information &
-
Mazroai Daniel
Dept. Of Telecommunications & Media Informatics Budapest University Of Technology & Economic
-
Wada Naoya
Photonic Network Group National Institute Of Information And Communications Technology (nict)
-
Puttnam Ben
Photonic Network Group New Generation Network Research Center National Institute Of Information &
関連論文
- Investigating the Performance and Limits of a Burst-Mode EDFA in Optical Packet and Burst-Switched Networks
- Amplitude vs Phase Regeneration for BPSK Modulation Format
- 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)
- Programmable Coupler Ladder Based on Lithium Niobate Y-Junction Reflector(Optical Signal-Processing Devices for Photonic Networks)
- Optical Packet Switching Network Based on Ultra-Fast Optical Code Label Processing(Ultrafast Photonics)
- Multi-Stage Fiber Delay Line Buffer in Photonic Packet Switch for Asynchronously Arriving Variable-Length Packets(Internet)
- Coherent Code-Shift-Keying OCDMA System
- Coherent Code-Shift-Keying OCDMA System
- Phase modulation of time domain stretched pulse for reconfigurable spectral phase encoding OCDMA (フォトニックネットワーク)
- A Resonant Type LiNbO_3 Optical Modulator Array with Micro-Strip Antennas(LiNbO_3 Devices,Recent Advances in Integrated Photonic Devices)
- Low-Temperature Au-to-Au Bonding for LiNbO_3/Si Structure Achieved in Ambient Air(Micro/Nano Fabrication,Microoptomechatronics)
- 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)
- Discrimination of All Types of 4-Bit Optical Code by Optical Time-Gating and Designed Label Recognition Filter in Label Recognition Using Optical Correlation(Next Generation Photonic Network Technologies)
- Cutting-Edge Technologies on Broadband and Scalable Photonic-Network : Packet switched networks based on all-optical label processing
- 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
- Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides (レーザ・量子エレクトロニクス)
- 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
- Repetition-Rate-Tunable Terahertz Optical Clock Generation Based on Optical Spectrum Synthesizer Using Attenuation and Phase-Tunable Arrayed Waveguide Grating
- 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