Contents
OTDM-Systems
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168-Gb/s OTDM Wavelength Conversion Using An SMZ-Type All-Optical Switch
Y. Ueno, S. Nakamura, H. Hatakeyama, T. Tamanuki, T. Sasaki, and K. Tajima, NEC Corporation, Japan |
13 |
160 Gbit/s, 64-Bit All-optical Code Generation and Regnition Using Superstructured Fibre Bragg Gratings
P. C. Teh, P. Petropoulos, M. Ibsen, D.J. Richardson, University of Southampton, UK |
15 |
O-TDM Demultiplexer with 42 dB Gain Based on a Fiber Optical Parametric Amplifier
J. Hansryd, P. A. Andrekson, Chalmers University of Technology, Sweden |
17 |
A Rapidly Re-configurable Optical Channel Selector using A RF Digital Phase Shifter for Ultra-fast OTDM Networks
K. Deng, D. T.K. Tong, Lucent Technologies, USA |
19 |
Simultaneous All-Optical Demultiplexing and Regeneration of a Channel from a 40 Gbit/s OTDM Signals Based on SPM and XPM in Dispersion Shifted Fiber
J. Yu, P. Jeppesen, Technical University Denmark, Denmark |
21 |
Pulse Extinction Ratio Improvement Using SPM in an SOA for OTDM Systems Applications
M. Lønstrup Nielsen; Technical University of Denmark, Denmark; B. E. Olsson, D. J. Blumenthal; University of California, USA |
23 |
Space and Wireless Communications
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Optical Space Communications Systems
T. Wiesmann, H. Zech, Bosch Telecom, Germany |
25 |
1 W Laser Transmitter for Intersatellite Links
L. Bartelt-Berger, F. Heine, U. Hildebrand, D. Lange, T. Schwander, S. Seel, B. Smutny, Bosch Telecom, Germany |
29 |
Dual-Mode Self-Pulsating Laser for Broadband Hybrid Fibre Radio-Systems
G. Großkopf, D. Rohde, R. Eggemann, C. Bornholdt, S. Bauer, B. Sartorius, M. Möhrle, Heinrich-Hertz-Institut für Nachrichtentechnik Berlin GmbH, Germany |
31 |
Wavelength Routing in Fibre-Wireless Networks with Spectral Selection and Remote Modulation
T. Koonen, K. Steenbergen, F. Janssen, J. Wellen, Bell Laboratories, Lucent Technologies, S. H. de Groot, University of Twente, The Netherlands |
33 |
Semiconductor Optical Amplifiers and EA-Modulators
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Recent Advances in SOA's in WDM Applications
L. H. Spiekman, G. N. van den Hoven, T. van Dongen, M. J. H. Sander-Jochem, J. J. M. Binsma, JDS Uniphase, The Netherlands, J. M. Wiesenfeld, A. H. Gnauck, L .D. Garrett, AT&T Research, USA |
35 |
High Saturation Output Power (+17 dBm) 1550 nm Polarization Insensitive Semiconductor Optical Amplifier
K. Morito, M. Ekawa, T. Watanabe, Y. Kotaki, Fujitsu Laboratories Ltd., Japan |
39 |
50 Gb/s Capability of a New Zero Loss Integrated SOA/EA Modulator
J.-R. Burie, F. Dumont, O. le Gouezigou, S. Lamy, D. Cornec, P. André, OPTO+, France |
43 |
Low Driving Voltage Optical Modulators for 40 Gbit/s Applications
M. Shirai, K. Watanabe, T. Ido, K. Ishikawa, Hitachi Ltd., Japan |
45 |
Scaleable 80 Gbit/s OTDM using a modular architecture based on EA modulators
H. T. Yamada, H. Murai, A. R. Pratt, Y. Ozeki, Oki Electric Industry, Japan |
47 |
Bragg Gratings
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Photosensitivity in Tin Co-Doped Silica Optical Fibres
G. Brambilla, V. Pruneri, L. Reekie, Southampton University, UK; C. Contardi, D. Milanese, M. Ferraris, Politécnico di Torino, Italy |
49 |
Chirped Fibre Bragg Gratings for Picosecond Pulse Train Multiplication up to 80 GHz
S. Longhi, M. Marano, P. Laporta, INFM, Italy; M. Belmonte, B. Agogliati, L. Arcangeli, D. Scarano, Pirelli Cavi & Sistemi S.p.a, Italy; V. Pruneri, M. N. Zervas, M. Ibsen, Optoelectronics Research Centre, UK |
51 |
High reflectivity linear-phase fibre bragg gratings
M. Ibsen, P. Petropoulos, M. N. Zervas, University of Southampton, UK, R. Feced, Nortel Networks, UK |
53 |
Compact Long-Period Grating Module for Wide-Band Gain Flattening Filters
M. Harumoto, M. Shigehara, H. Suganuma, Sumitomo Electric Industries Ltd., Japan |
57 |
Impact of Fibre Bragg Grating Dispersion in WDM-SCM Communication Systems
J. Capmany, D. Pastor, S. Sales, B. Ortega, P. Munoz, Universidad Politécnica de Valencia, Spain |
59 |
Management of Optical Networks
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Management of Optical Networks
A. Gladisch, G. Lehr, T-Nova, Germany See separate Volume |
61 |
Adaptive Optical Receiver for Performance Monitoring and Electronic Mitigation of Transmission Impairments
M. Fregolent, S. Herbst, H. Soehnle, B. Wedding, Alcatel SEL AG, Germany |
63 |
Field Trail of Optical Maintenance of PONs Using a Tunable OTDR
K. Ozawa, M. Shigehara, Sumitomo Electric Industries Ltd.; A. Ban, T. Naitou, Osaka Media Port Corporation; K. Shimoura, The Kansai Electric Power Company Inc., Japan |
65 |
Long Distance WDM
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Ultra Long Distance Submarine DWDM Systems
N. S. Bergano, Tyco Submarine Systems, USA |
67 |
1 Tbit/s WDM C+L Band Transmission over 4000 km of Non-Zero Dispersion Shifted Fiber
G. Vareille, F. Pitel, O. Ait Sab, J.-F. Marcerou, Alcatel Submarine Networks Division, France |
69 |
800 Gb/s NRZ Transmission over 3200 km of Truewave® Fiber with 100-km Amplified Spans Employing Distributed Raman Amplification
B. Zhu, P. B.Hansen, L. Leng, S. Stulz, T. N. Nielsen, C. Doerr, A. J. Stentz, Z. J. Chen, D. W. Peckham, E. F. Rice, L. Hsu, C. K. Kan, A. F. Judy, L.Gruner-Nielsen, Lucent Technologies, USA |
73 |
320-Gbit/s, 100-km WDM Repeaterless Transmission Using Fully Encoded 40-Gbit/s Optical Duobinary Channels with Dispersion Tolerance of 380 ps/nm
K. Yonenaga, Y. Miyamoto, H. Toba, K. Murata, NTT Network Innovation Lab., M. Yoneyama, NTT Electronics Corp., Y. Yamane, H. Miyazawa, NTT Photonics Lab., Japan |
75 |
160 Gbit/s WDM Transmission Using an Electronically-Compensated Semiconductor Optical Amplifier
V. Mikhailov, University College London, UK; M. Zirngibl, Lucent Technologies, USA |
79 |
Transceivers
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A 1.3/1.55 µm Bi-Directional Transceiver for ATM-PON ONU with -40dBm Full-Duplex Sensitivity Using a Novel Double-Filter 1.55 µm-PIN-PD
Y. Kuhara, H. Nakanishi, T. Okada, J. Shinkai, H. Terauchi, M. Yoshimura, N. Yamabayashi, Sumitomo Electric Industries Ltd., Japan |
81 |
An ONU Transceiver Module Using PLC for 622Mbit/s-Downstream ATM-PON Sytem
H. Yanagisawa, A. Goto, R. Nomura, Y. Fukutomi, J. Yokoyama, M. Kunitsugu, K. Kaede, NEC Corp., N. Kitamura, NEC Yamanashi Corp., Japan |
85 |
High Performance Hybrid Integrated Transmit Receive Devices
O. Blume, A. Ambrosy, D. Ferling, K. Matthies, K. Rueß, M. Schilling, S. Schneider; Alcatel Corporate Research Center, Germany; G. Robert, J. L. Nicque; Alcatel Optronics, France; F. Boubal, S. Rabaron, D. Tregoat, C. Artigue; Alcatel Corporate Research Center, France |
87 |
40-Gbit/s Optical Transmitter and Receiver Using InP HBT and SiGe HBT ICs
K. Ishikawa, K. Watanabe, H. Suzuki, R. Takeyari, T. Tanoue, T. Masuda, R. Hayami, K. Washio, H. Chiba, K. Ohhata, K. Hirata, T. Harada, Hitachi Ltd., Japan |
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Dispersion Management
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Dispersion Compensating Fibres and Perspectives for Future Developments
L. Grüner-Nielsen, S. N. Knudsen, B. Edvold, P. Kristensen, T. Veng, D. Magnussen, Lucent Technologies, Denmark |
91 |
Wide-Band Dispersion Management Transmission Line with Medial Dispersion Fiber (MDF)
K. Mukasa, R. Sugizaki, T. Yagi, Y. Suzuki, K. Kokura, Furukawa Electric Co., Ltd., Japan |
95 |
Negative Dispersion Fibers for Uncompensated Metropolitan Networks
C.-C. Wang, I. Roudas, I. Tomkos, M. Sharma, and *R. S. Vodhanel, Photonics Research and Test Center, Corning Incorporated, USA |
97 |
Novel Dispersion Flattened Link Consisting Of New NZ-DSF And Dispersion Compensating Fiber Module
M. Hirano, T. Kato, K. Fukuda, K. Tamano, M. Onishi, Y. Makio, M. Nishimura, Sumitomo Electric Industries, Ltd., Japan |
99 |
Influence of Dispersion Fluctuation of Installed Dispersion Shifted Fiber in High-Speed TDM Transmission System
Y. Hayata, T. Okamawari, Japan Telecom, Japan |
101 |
WDM-Networks
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Resilience in IP over WDM Based Multilayer Networks
P. Demeester, Gent University, Belgium See separate Volume |
103 |
10-Tbps Full-Mesh WDM Network Based on Cyclic-Frequency Arrayed-Waveguide Grating Router
K. Kato, A. Okada, Y. Sakai, K. Noguchi, T. Sakamoto, A. Takahara, A. Kaneko, S. Suzuki, M. Matsuoka, NTT Photonics Laboratories; S. Kamei, NTT Network Innovation Laboratories, Japan |
105 |
Cascadable Modular Transmitter and Receiver for Delivering Multiple Broadcast Services on WDM Passive Optical Networks
C. F. Lam, K.C. Reichmann, P. P. Iannone, AT & T Labs-Research, USA |
109 |
Dispersion Compensation
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Tunable Dispersion Compensation in a 160 Gb/s TDM System by Voltage Controlled Fiber Grating
B. J. Eggleton, B. Mikkelsen, G. Raybon, A. Ahuja, J. A. Rogers, P. S. Westbrook, T. N. Nielsen, S. Stulz, K. Dreyer, Lucent Technologies, USA |
111 |
Dynamic Dispersion Compensation Using Bandwidth Tunable Fiber Bragg Gratings
S. T. Vohra, I. N. Duling, C. C. Chang, W. I. Kaechele, M. L. Dennis, K. P. Koo, U. S. Naval Research Laboratory, USA |
113 |
16-Channel Dispersion-Slope Compensator for 40-Gbit/s WDM Transmission Systems Using an AWG and a Spatial Phase Filter
H. Takenouchi, H. Tsuda, T. Goh, K. Okamoto, NTT Photonics Lab., A. Hirano, K. Yonenaga, NTT Innovation Lab., T. Ishii, NTT Basic Research Lab., Japan |
115 |
Performance of Electronic Compensator for Chromatic Dispersion & SPM
S. Otte, W. Rosenkranz, University of Kiel, Germany |
117 |
Automatic dispersion equalization using bit-error-rate monitoring in a 40-Gbit/s transmission system
K. Yonenaga, A. Sano, S. Kuwahara, Y. Miyamoto, H. Toba, NTT Network Innovation Lab., M. Yoneyama, NTT Electronics Corp., Japan |
119 |
Performance Comparison of DSF- and SOA-Based Conjugators In ASE-Limited Digital Microwave Optical Links
F. Ramos, J. Marti, V. Polo, J. M. Fuster, F. J. Martinez, Universidad Politecnica de Valencia, Spain |
121 |
DFB- Lasers
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85-10Gbit/s Operation of 1.3-µm InGaAIAs MQW-DFB Laser
M. Aoki, T. Sudo, T. Tsuchiya, D. Takemoto, S. Tsuji, HITACHI Ltd., Japan |
123 |
Uncooled and Directly Modulated 1.3µm DFB Laser Diode for Serial 10Gb/s Ethernet
G. Sakaino, Y. Hisa, K. Takagi, T. Aoyagi, T. Nishimura, E. Omura, Mitsubishi Electric Corp., Japan |
125 |
1.3µm AlGaInAs Lasers with 12.0 GHz Relaxation Oscillation Frequency at 85°C for Gigabit Ethernet System
T. Takiguchi, Y. Hanamaki, T. Kadowaki, T. Tanaka, M. Takemi, Y. Mihashi, E. Omura, N. Tomita, Mitsubishi Electric Corp., Japan |
127 |
In-Wafer Wavelength Distribution Controlled L-Band DFB/MODs for 10-Gb/s/ch Long-Haul DWDM Systems
Y. Furushima, Y. Sakata, Y. Inomoto, M. Ishizaka, J. Shimizu, K. Komatsu, K. Kudo, K. Yashiki, Y. Yokoyama, M. Yamaguchi, Y. Muroya, T. Sasaki, M. Ushirozawa, T. Kosugi, H. Tanaka, NEC Corp., Japan |
129 |
10Gb/s Single-Mode Operation of 2D-Lattice Distributed Reflector Laser
A. B. Massara, L. J. Sargent, L. Deng, R. V. Penty, I. H. White, University of Bristol, UK |
131 |
High-Slope-Efficiency, High-Single- Longitudinal-Mode-Stability DFB Laser Diodes with Asymmetrically-Pitch-Modulated (APM) Gratings
K. Sato, Y. Muroya, T. Okuda, Y. Huang, K. Kobayashi, NEC Corp., Japan |
133 |
Polarization Mode Dispersion I
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Component for Optical PMD-Compensation in a WDM Environment
H. Rosenfeldt, Ch. Knothe, E. Brinkmeyer, Technische Universität Hamburg-Harburg, Germany |
135 |
A Novel Polarization Mode Dispersion Equalizer Using Quasi-phase Matched SHG
M. Masuda, Y. Yasutome, K. Yamada, S. Tomioka, T. Kudou, T. Ozeki, Sophia University, Japan |
137 |
Distributed Birefringence Characterization in Installed Single-Mode Fibers
A. Galtarossa, L.Palmieri, A. Pizzinat; M. Schiano, T. Tambosso, University of Padova, Italy |
139 |
Influence of Measurement Parameters on Polarization Mode Dispersion Measurements using the Signal Delay Method
L. E. Nelson, R. M. Jopson, H. Kogelnik, Bell Labs., USA |
143 |
Fading in 2.5 Gb/s IM-DD Optical Transmission due to PMD and PDL
A. Bessa dos Santos, A.O. Dal Forno, J. P. von der Weid, PUC-Rio; M. Lacerda Rocha, A. Paradisi, CpqD Foundation, Brasil |
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