Contents
IP-Networks
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Design Issues to Create Photonic IP Networks
N. Nagatsu, NTT, Japan |
15 |
Ultrafast Packet Ring Network Employing Optical Label Switching
A. Takada, J.H. Park, W. Imajuku, NTT Network Innovation Laboratories; Y. Yamabayashi, NTT Electronics Corp., Japan |
19 |
Modular Optical Packet Switching Node for Future Multi-QoS Metro Networks
N. Le Sauze, D. Chiaroni, N. Fontecha, A. Jourdan, Alcatel CIT, France |
21 |
Design Trade-Offs in Optical Burst Switched Networks with Dynamic Wavelength Allocation
M. Düser, E. Kozlowski, R. I. Killey, P. Bayvel, University College London, UK |
23 |
On Parallelizing Schedulers for All-Optical Routers with QoS Provisioning
Lubo Tancevski, Alcatel, USA |
25 |
Design Model for Transparent WDM Packet Switched Irregular Networks
G. Castanon, Alcatel, USA |
27 |
Effect of Corpelated and Prioritised Traffic on the Buffer Management in Photonic Nodes
M. R. N. Ribeiro, M.J. O’Mahony, University of Essex, UK |
29 |
Polarization Mode Dispersion II
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Invited paper: Long-term PMD Mitigation at 10 Gb/s and Time Dynamics Over High-PMD Installed Fiber
J. A. Nagel, A. R. McCormick, R. M. Derosier, L. D. Garrett, AT & T Labs, M. W. Chbat, N. A. Weaver, Alcatel, USA, J. P. Soigné, B. M. Desthieux, Alcatel CIT, France, H. Bülow, Alcatel Corporate Research Center, Germany |
31 |
A Comparison of Different PMD-Compensation Techniques
M. Karlsson, H. Sunnerud, P.A. Andrekson, Chalmers University of Technology, Sweden |
33 |
PMD Mitigation via Single-Sideband Modulation and Principal-State Launch
S. L. Woodward, A. H. Gnauck, J. A. Nagel, C. F. Lam, AT & T Labs-Research, USA |
37 |
Electronically Enhanced Optical PMD Compensation
H. Bülow, F. Buchali, G. Thielecke, Alcatel Corporate Research Center, Germany |
39 |
Dynamic Polarization-Mode-Dispersion Compensation in WDM Systems
W. Shieh, H. Haunstein, B. Mckay, D. Fishman, A. Golubchik, J. Diubaldi, C. Martell, V. Arya, R. Lee, H. Choudhury, Lucent Technologies, USA |
41 |
Simultaneous PMD Compensation of Multiple WDM Channels Using a Single Compensator
R. Khosravani, S. A. Havstad, Y. W. Song, P. Ebrahimi, A. E. Willner, University of Southern California, USA |
45 |
Enhanced Higher-Order PMD Compensation Using a Variable Time Delay between Polarizations
Q. Yu, L. Yan, S. Lee, Y. Xie, M. Hauer, Z. Pan, A. E. Willner, University of Southern California, USA |
47 |
Semiconductor Lasers
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Coherent Coupling of Laser Diodes for High Power Single Frequency Emission at 980 nm
Ch. Vélez, M. Dülk, H. Melchior, ETH Zürich, W. Hunziker, Opto Speed SA, Switzerland |
49 |
Design, Characterisation and Evaluation of 10GHz Wavelength and Time-Width Tunable, Transform-Limited Picosecond Short Pulse Generation from M-Z Modulated CW Laser
Y. Qian, J. Yu, J. H. Povlsen, Technical University of Denmark; S. N. Knudsen, Lucent Technologies, Denmark |
51 |
Short Optical Pulse Generation at 20 GHz Repetition Rate Using Integrated Laser – Modulators – Amplifier
G. Martin, G. Aubin, A. Ramdane, France Telecom, E. Vergnol, A. Carenco, Opto+, France |
53 |
Q-Switched Laser Module for Regenerative Wavelength Conversion
O. Brox, D. Hoffmann, M. Möhrle, B. Sartorius, Heinrich-Hertz-Institut für Nachrichtentechnik Berlin GmbH, Germany |
57 |
25 GHz-Spacing DWDM Transmission Using Directly Modulated Fiber-Grating Lasers
J. Hashimoto, T. Takagi, T. Kato, G. Sasaki, M. Shigehara, K. Murashima, M. Shiozaki, T. Iwashima, Sumitomo Electric Industries Ltd., Japan |
59 |
Performance Optimisation of 1.3 µm Vertical-Cavity Semiconductor Optical Amplifiers
J. Piprek, S. Bjorlin, B. Riou, P. Abraham, Y.-J. Chiu, J. E. Bowers, University of California, USA |
61 |
Mode Partition Noise of Multimode VCSEL’s Due to Spatial Filtering
L. Zei, S. Ebers, J.-R. Kropp, Infineon Technologies, Germany; K. Petermann, TU Berlin, Germany |
63 |
5 Gbit/s Data Transmission with Single-Mode GaAs VCSELs over a 0 °C to 80 °C Temperature Range
F. Mederer, M. Kicherer, R. Jäger, H. Unold, K.J. Ebeling, University of Ulm, Germany |
65 |
Raman Amplifiers
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Design of Distributed Raman Amplifiers
K. Rottwitt, J. Bromage, M. Du, A. Stentz, Lucent, USA |
67 |
1-THz-Spaced Multi-Wavelength Pumping for Broadband Raman Amplifiers
Y. Emiro, S. Matsushita, S. Namiki, Furukawa Electric Co., Ltd., Japan |
73 |
Novel Lossless Optical Transmission Line with Distributed Raman Amplification
T. Okuno, T. Tsuzaki, M. Nishimura, Yokohama Research Laboratories, Japan |
75 |
Optical SNR Versus Q-Factor Improvement with Distributed Raman Amplification in Long Amplifier Chains
M. H. Eiselt, L. D. Garrett, AT&T Labs., V. Dominic, SDL Inc., USA |
77 |
16-Channel C-Band Hybrid Fiber Amplifier Comprising an EDFA and a Single Diode Laser Pumped Dispersion Compensating Raman Amplifier
W.-Y. Oh, S.-S. Lee, H. Lee, W. Seo, Electronics and Telecommunications Research Institute, Korea |
79 |
1500 nm Distributed and Discrete Raman Fiber Amplifiers
E. M. Dianov, I. A. Bufetov, M. M. Bubnov, V. B. Neustruev, S. A. Vasiliev, V. M. Mashinsky, O. I. Medvedkov, S. L. Semjonov, A. V. Shubin, V. M. Paramonov, M. V. Grekov, A. N. Guryanov, V. F. Khopin, Russian Academy of Sciences, Russia |
81 |
Evolution Strategies
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IP/WDM Evolution Strategies
M. Jäger, F.-J. Westphal, H.-M. Foisel, T-Nova, Germany |
83 |
Optical IP Terarouter
A. Jourdan, Alcatel, France, C. Janz, Opto+, France, F. Masetti, M. Vandenhoute, L. Tancevski, Y. Xiong, G. Aicklen, Alcatel, USA, G. Eilenberger, Alcatel, Germany |
87 |
Optical Fibre Links for Third Generation Mobile Networks
D. Wake, British Telecom, UK; R. Schuh, Telia Research AB, Sweden |
89 |
Polarization Mode Dispersion III
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Frequency Autocorrelation of the Differential Group Delay in Optical Fibers
A. Mecozzi, M. Shtaif, J. A. Nagel, At & T Labs Research, USA |
91 |
Penalty Distribution Comparison for Different Data Formats under High PMD Values
S. Lee, Y. Xie, O. H. Adamczyk, A. E. Willner, University of Southern California, USA |
93 |
Statistical Behaviour of the Q-Factor in Optical Transmission Systems due to the Polarization Mode Dispersion
D. Beltrame, F. Matera, M. Settembre, Fondazione Ugo Bordoni; A. Galtarossa, A. Pizzinat, University of Padova, Italy; D. Le Guen, F. Favre, M. Henry, France Telecom R&D, France |
95 |
FEC Performance in PMD Limited High-Speed Optical Transmission Systems
M. Tomizawa, Y. Kisaka, T. Ono, Y. Miyamoto, Y. TadaN; NTT Network Innovation Laboratories, Japan |
97 |
Adaptive Decision Feedback Equalizer for 10 Gbit/s Dispersion Mitigation
F. Buchali, H. Bülow, W. Kuebart, Alcatel Corp. Research Center, Germany |
101 |
Detectors and Receivers
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HBT Phototransistor for Remote Upconversion in Hybrid Fibre Radio Distribution Systems
C. Gonzalez, M. Muller, J. L. Benchimol, M. Riet, OPTO+FT&D, France, P. Jaffré, P. Legaud, FT R&D/DTD/AEA, France |
103 |
An Ultra-Compact 2.5 Gbps Fibre-Optic Receiver Operates on +3.3V Supply Voltage in -40 to +85 °C Temperature Range
M. Tachigori, I. Kobayashi, T. Tajima, Y. Uda, NEC Corp., Japan |
105 |
Traveling-Wave Photodetector for MM-Wave Photonic Local Oscillators
R. Heinzelmann, A. Stöhr, C. Kaczmarek, D. Jäger, Gerhard-Mercator Universität, Germany |
107 |
A Polarization-Independent High-Efficiency Refracting-Facet Uni-Traveling-Carrier Photodiode With A Bandwidth Over 50 GHz
Y. Muramoto, H. Fukano, T. Furuta, Y. Matsuoka, NTT Photonics Laboratories, Japan |
109 |
Waveguide Avalanche Photodiodes with a Thin InAlAs Multiplication Layer for over 10-GBPS High-Sensitivity Receivers
T. Nakata, T. Takeuchi, S. Wada, I. Watanabe, K. Makita, M. Yamaguchi, T. Torikai, NEC Corporation, Japan |
111 |
Static and Dynamic Performance of an Adaptive Receiver for 10Gbps Optical Transmission
G. L. Frazer, M. W. Goodwin, K. E. Leonard, J. P. Moffatt, F. Zhang, Lucent Technologies, Inc. USA |
113 |
Optical Fibre Amplifiers
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High Power Hybrid Er+3/Er+3-Yb+3 Fiber Amplifier
A. Yeniay, Lehigh University; J.-M. Delavaux, Lucent Technologies, USA; B. Neyret, Ecole Nationale Supérieure d'Electronique, d'Hydraulique et de Télécommunications de Toulouse, France |
115 |
High Efficiency Amplification of EDFA Using a Pump Wavelength of the 1.53 µm Region
T. Yamashita, H. Sawada, M. Yoshida, K. Imamura, Y. Imada, Mitsubishi Cable Industries Ltd., Japan |
117 |
Low Cost Multi-Port Reconfigurable Erbium Doped Cladding Pumped Fibre Amplifier
S.-U. Alam, J. Nilsson, P. W. Turner, University of Southampton; M. Ibsen, A. B. Grudinin, Southampton Photonics Ltd, UK, A. Chin, Polaroid Corp., USA |
119 |
High Speed Pump Upgrade in Networked DWDM Systems
B. Flintham, J. Drake, K. P. Jones, J. Regan; Nortel Networks, UK |
121 |
Novel Pump-LD With Self Wavelength-Tuning Function
M. Ohashi, K. Nishide, D. Tanaka, M. Nakai, T. Kashima, R. Yamauchi, K. Shima, Fujikura Ltd, Japan |
123 |
Ultra High Speed Transmission
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160 Gb/s TDM Transmission Systems
B. Mikkelsen, G. Raybon, R.-J. Essiambre, Lucent, USA |
125 |
Extreme OTDM Transmission Issue: Beyond 100 Gbit/s
T. Morioka, NTT, Japan |
129 |
Unrepeatered 160 Gbit/s RZ Single Channel Transmission over 160 km of Standard Fiber at 1.55 µm with Hybrid MZI Optical DEMUX
R. Ludwig, U. Feiste, S. Diez, C. Schubert, C. Schmidt, H. J. Ehrke, H. G. Weber, Heinrich-Hertz-Institut, Germany |
135 |
Dispersion-Managed 200 Gb/s Polarization-Multiplexed Transmission Over 160 km
W. I. Kaechele, M. L. Dennis, T. F. Carruthers, and Irl N. Duling, Naval Research Laboratory, USA |
137 |
Single Channel 80 Gbit/s OTDM Transmission through a 800 km Dispersion Shifted Fiber
I. Yamashita, K. Shimoura, S. Seikai, Kansai Electric Power, K. Inoguchi, Kansai Tech. Corp., Japan |
141 |
80 Gbit/s RZ Transmission over 523 km Using Dispersion Compensated Standard Fibre
P. Harper, S. B. Alleston, N. J. Doran, Aston University, UK |
143 |
Standardization and WDM-Crosstalk
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Optical Networks from a Standardization Perspective
J. O. Eaves, Lucent, USA See separate Volume |
147 |
Accurate Formulas for the Penalty Caused by Interferometric Crosstalk
Ch. J. Rasmussen, F. Liu, P. Jeppesen, Technical University of Denmark, Denmark |
149 |
Nonlinear Suppression of WDM Interferometric Crosstalk
Y. J. Chai, I. Y. Khrushchev, I. H. White, University of Bristol, UK |
151 |
Improved Crosstalk Performance of InP-Based Cross-Connect by Using Phase Scrambling
E. Tangdiongga, R. Jonker, H. d. Waardt, J. van Zantvoort, D. Khoe, Eindhoven University of Technology, The Netherlands C. Herben, Delft University of Technology, The Netherlands |
153 |
Optically Multiplexed Transmitter for Hybrid Baseband and Subcarrier Multiplexed Signals
T. Dimmick, R. Doshi, R. Rajaduray, G. Rossi, B.-E. Olsson, D. Blumenthal, University of California, USA |
155 |
Tunable and WDM Lasers
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Widely Tunable Semiconductor Lasers
T. G. B. Mason, Lucent Technologies, USA |
157 |
Multi-Range Wavelength-Selectable Microarray Light Sources with Detuning Adjustable EA-Modulator
K. Yashiki, K. Kudo, T. Morimoto, S. Sudo, Y. Muroya, T. Tamanuki, M. Ishizaka, T. Hosoda, Y. Furushima, H. Hatakeyama, Y. Yokoyama, K. Mon, T. Sasaki, M. Yamaguchi, NEC Corporation, Japan |
159 |
High Power and Wide Quasi-Continuous Tuning, Surface Ridge SG-DBR Lasers
P. J. Williams, D. J. Robbins, F. O. Robson, N. D. Whitbread, Marconi Caswell limited, UK |
163 |
Wavelength Tunable 4 ch x 2.5 Gb/s SS-DFB Laser Module for DWDM Applications
T. Tadokoro, M. Okayasu, M. Nakamura, H. Oohashi, Y. Tohmori, N. Ishihara, S. Tohno, NTT Photonics Laboratories, Japan |
165 |
Rapid Tunable Transmitter with Large Number of ITU Channels Accessible in less than 5 ns
O. A. Lavrova, G. Rossi, D. J. Blumenthal, University of California, USA |
169 |
40 GHz Actively Mode-Locked Semiconductor Laser With Hybrid External Fiber Bragg Grating Cavity
M. Dülk, H. Melchior, Institute of Quantum Electronics, Switzerland, W. Hunziker, Opto Speed SA, Switzerland, L. Tallone, CSELT, Italy |
171 |
DBR Module with 20 mW Coupled Output Power over 40 Channels 50 GHz Spaced
H. Debrégeas-Sillard, A. Vuong, F. Delorme, J. David, V. Allard, A. Bodéré,O. LeGouezigou, F. Gaborit, J. Rotte, M. Goix, V. Voiriot, J. Jacquet, OPTO+, France |
173 |
Optical Fibre Amplifiers and Lasers
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75 nm of Continuous Gain Using a Novel EDFA Topology
D. Lowe, R. Di Muro, S. Wilson, Nortel Networks, UK |
175 |
Active Gain Tilt Compensation of EDFA Using Thulium doped Fiber as Saturable Absorber
T. Kitabayashi, T. Sakai, T. Aizawa, T. Kashima, A. Wada, Fujikura Ltd., Japan |
177 |
Optical Fiber Amplifiers Employing Novel High-Speed AGC and Tone-signal ALC Functions for WDM Transmission Systems
N. Suzuki, K. Shimizu, T. Kogure, J. Nakagawa, K. Motoshima, Mitsubishi Elecetric Corp., Japan |
179 |
Channel Power and Power Tilt Control Method in L-band EDFA
S. Y. Yoon, H. S. Shin, K. U. Song, D. I. Choi, S. T. Hwang, T. S. Park and Y. J. Oh, R & D Group, Korea |
181 |
Gain Tilt Control of Long Wavelength Erbium-Doped Fiber Amplifier
S. T. Hwang, S. Y. Yoon, H. S. Shin, Samsung Electronics, K. Cho, Sogang University, Corea |
183 |
Four-Wave Mixing in L-Band EDFAs: Channel Count Dependence
M. Vasilyev, S. Tsuda, S. Burtsev, Y. Liu, G. G. Luther, R. S. Mozdy, Corning Inc., USA |
185 |
A Simple Way to Realize Pulse-Amplitude-Equalization from a Rational Harmonic Mode-Looked Fiber Ring Laser
L. Zhihong, K. T. Chan, L. Caiyun, G. Yizhi, Chinese University of Hongkong, Hongkong |
189 |
A 1317 nm Neodymium Doped Fluoride Glass Waveguide Laser
D. W. J. Harwood, A. Fu, E. R. Taylor, R. C. Moore, Y. D. West, D. N. Payne, University of Southampton, UK |
191 | |