Optical code processing system, device, and its application

Recent progress of optical code processing technology is explained. Ultra-high speed time domain, spectral domain, hybrid domain, and multiple optical code processing devices and systems are shown. As application of these technologies, OCDMA-PON, OPS network, and terahertz optical clock generation are demonstrated.

[1]  Yuki Komai,et al.  160 GHz to 20 GHz variable rate RZ and CS-RZ pulse trains generation by using phase and attenuation tunable high-resolution AWG, and its application to photonic networks , 2003, 2003 Conference on Lasers and Electro-Optics Europe (CLEO/Europe 2003) (IEEE Cat. No.03TH8666).

[2]  Hiroaki Harai,et al.  Photonic packet routing based on multiwavelength label switch using multisection fiber Bragg gratings , 2002, SPIE ITCom.

[3]  H. Furukawa,et al.  Prototype 160-Gbit/s/port Optical Packet Switch Based on Optical Code Label Processing and Related Technologies , 2007, IEEE Journal of Selected Topics in Quantum Electronics.

[4]  G. Cincotti,et al.  Characterization of a full encoder/decoder in the AWG configuration for code-based photonic Routers-part II: experiments and applications , 2006, Journal of Lightwave Technology.

[5]  G. Cincotti Design of optical full encoders/decoders for code-based photonic routers , 2004, Journal of Lightwave Technology.

[6]  J P Heritage,et al.  Encoding and decoding of femtosecond pulses. , 1988, Optics letters.

[7]  Yuki Komai,et al.  Large Scale, Multiple, Optical Code-Label Generation and Processing Based on Multi-Port, Tuneable Spectrum Synthesizer and Electro-Optic Frequency Comb Generator , 2006, 2006 European Conference on Optical Communications.

[8]  K Kodate,et al.  Amplitude, Phase, and Bandwidth Tunable High-resolution Optical Spectrum Shaper and its Application for Optical Communication Systems , 2008, OFC/NFOEC 2008 - 2008 Conference on Optical Fiber Communication/National Fiber Optic Engineers Conference.

[9]  A. Agarwal,et al.  Fully-programmable ring resonator based integrated photonic circuit for phase coherent applications , 2005, OFC/NFOEC Technical Digest. Optical Fiber Communication Conference, 2005..

[10]  N. Wada,et al.  Photonic packet routing based on multi-wavelength label switch using fiber bragg gratings , 2000 .

[11]  N. Wada,et al.  Asynchronous Multiuser Coherent OCDMA System With Code-Shift-Keying and Balanced Detection , 2007, IEEE Journal of Selected Topics in Quantum Electronics.

[12]  A. Agarwal,et al.  Fully programmable ring-resonator-based integrated photonic circuit for phase coherent applications , 2006, Journal of Lightwave Technology.

[13]  N. Wada 200G-chip/s, 128-chip hierarchical optical BPSK labels processing and its networking application , 2003 .

[14]  N. Wada,et al.  Variable Rate and Tunable Central wavelength Terahertz Repetition Rate Optical Clock Generation Using Variable Bandwidth Spectrum Shaper , 2007, 2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference.

[15]  G. Cincotti,et al.  Characterization of a full encoder/decoder in the AWG configuration for code-based photonic routers-part I: modeling and design , 2006, Journal of Lightwave Technology.

[16]  Ken-ichi Kitayama,et al.  2.5 Gbit/s time-spread/wavelength-hop optical code division multiplexing using fibre Bragg grating with supercontinuum light source , 2000 .

[17]  Naoya Wada,et al.  100km Field Trial of 1.24 Tbit/s, Spectral Efficient Asynchronous 5 WDM×25 DPSK-OCDMA Using One Set of 50×50 Ports Large Scale En/Decoder , 2007, OFC 2007.

[18]  T. Kurokawa,et al.  Second- and third-order dispersion compensator using a high-resolution arrayed-waveguide grating , 1999, IEEE Photonics Technology Letters.

[19]  Anh-Vu Pham,et al.  Demonstration of Spectral Phase O-CDMA Encoding and Decoding in Monolithically Integrated Arrayed-Waveguide-Grating-Based Encoder , 2006, IEEE Photonics Technology Letters.