ecoc 2000 (münchen) : 2000.09.03-07 · 2008. 7. 15. · ecoc 2000 26th european conference on...
TRANSCRIPT
ECOC 2000
26th European Conference on OpticaCommunication
September 3-7. 2000 Munich, Germany
Volume 3:
Wednesday, September 6, 2000
Organized by:
ITG
Informationstechnische Gesellschaft im VDE
(Information Technology Society within VDE)
VDE
Verband der Elektrotechnik Elektronik Informationstechnik e. V.
(Association for Electrical, Electronic and Information Technologies)
In association with:
EUREL
European Optical Society
European Commission DG XIII
IEEE Lasers & Electro-Optics SocietyIEEE Communications SocietySociete Francaise d'Optique
Optical Society of America
VDE VERLAG • Berlin • Offenbach S?nover89
Conference Programme Vol. 3
Wednesday, September 6, 2000
Session 7.1 - WDM-DevicesChairman: M. Leppihalme, VTT Electronics, Finland
7.1.1 Tutorial: Advanced Devices for WDM Applications 19Meint K. Smit, Technical University Delft, The NetherlandsSee separate Volume
7.1.2 Planar Tapped Delay Line Based, Actively Configurable Gain-Flattening Filter...
21A. Ranalli, Corning Incorporated, USA; B. Fondeur, Corning S.A., France
7.1.3 Integrated-Optic Dispersion Slope Equalizer for N x 40Gb/sWDM Transmission 23K. Takiguchi, K. Okamoto, T. Goh, T. Saida, M. Itoh, NTT Photonics Laboratories, Japan
7.1.4 Novel AWG Interleaved Filters with a 50 GHz Channel Spacing Exhibiting High"Figure of Merit" Pass-Bands, and Low Loss, Cross-Talk, Dispersion,and Polarisation Sensitivity 25
J. E. A.Whiteaway, A. Fielding, T. Bricheno, M. E. Haywood, S. Day, T. V. Clapp,S. M. Ojha and P. J. Ayliffe, Nortel Networks International, UK
7.1.5 Low-Loss and Compact Silica-Based 16 Channel Arrayed-Waveguide Grating
Multiplexer Module with Higher Index Difference 27
M. Ishii, Y. Hibino, Y. Hida, A. Kaneko, M. Itoh, T. Goh, A. Sugita, T. Saida, A. Himeno,Y. Ohmori, NTT Photonics Laboratories, Japan
Session 7.2 - Non- Linear Effects I
Chairman: A. Sudbo, University of Oslo, Norway
7.2.1 Improving the Performance of 40 Gbit/s-Based WDM Transmission over
Standard Fibre 29
R. I. Killey, H. J. Thiele, P. Bayvel, Optical Networks Group, UK
7.2.2 SPM Limit of Duobinary Transmission 31
W. Kaiser, M. Wichers, T. Wuth, W. Rosenkranz, University of Kiel,C. Scheerer, C. Glingener, A. Farbert, J.-P. Elbers, G. Fischer, Siemens AG, Germany
7.2.3 Nonlinear Intra-Channel Effects: System Impairments and their Remedy 33
C. B. Clausen, A. Mecozzi, M. Shtaif, AT&T Labs Research, USA
7.2.4 Intra-Channel Four Wave Mixing And Ghost Pulses Generation: Time Domain
Approach 35
F. Merlaud, France Telecom, S. K. Turitsyn, Aston University, UK
7.2.5 Control of Cross-Phase Modulation in Dispersion Flattened Soliton Systems 37
S. Wabnitz, F. Neddam, Alcatel, France
7
7.2.6 Experimental Study on SRS Loss and its Compensation in Three-Band WDMTransmission 39
Y. Yano, T. Kasamatsu, Y. Yokoyam, T. Ono, NEC Coorporation, Japan
7.2.7 Stimulated Raman Scattering Threshold Enhancement in a Massive WDM
System Via Optical Filtering Techniques 41
C. M. Mcintosh, D. N. Christodoulides, J. Toulouse, A. Grandpierre, Lehigh University,J.-M. P. Delavaux, Bell Laboratories, Lucent Technologies, USA
7.2.8 Nonlinear Polarization Evolution On The Time Scale Of A Single Bit PeriodIn A Fiber Optic Transmission Line 43
B. C. Collings, L. Boivin, Bell Labs, Lucent Technologies, USA
Session 7.3 - High Speed Access Networks
Chairman: G. Prati, Dipartimento di Ingenieria Informatica, Italy
7.3.1 Invited paper: Enabling Techniques for DWDM Transmission Systems Having HighSpectral Efficiencies 45
T. N. Nielsen, A. J. Stentz, P. B. Hansen, Lucent, USA
7.3.2 invited paper: Spectrum-Slicing of Coherent Sources for OpticalCommunications 49
L. Boivin, B. C. Collings, Lucent Technologies, USA
7.3.3 Highspeed Optically Modulated Broadband Light Source 51
T. Pfeiffer, Alcatel SEL, Germany
7.3.4 155 Mbit/s Data Transmission at 62 GHz Using an Optically Steered Antenna...
53
G. Grofikopf, D. Rohde, R. Eggemann, Heinrich-Hertz-lnstitut fur Nachrichtentechnik Berlin
GmbH, Germany
7.3.5 Penalty Free Subcarrier Multiplexed Multimode Fibre Links For Gigabit Ethernet
Applications Beyond The Bandwidth Limit 55
E. J. Tyler, M. Webster, R. V. Penty, I. H.White, University of Bristol, UK
7.3.6 10 Gb/s Multimode Fiber Transmissions over any (Loss-Limited) Distances UsingAdaptive Equalization Techniques 57
X. Zhao, F.-S. Choa, The University of Maryland Baltimore County, USA
Session 7.4 - Optical Signal Processing I
Chairman: C. Lerminiaux, Coming, France
7.4.1 Invited paper: Ultra Fast All-Optical Signal Processing in Semiconductorand Fiber Based Devices 59
H. N. Poulsen, A. T. Clausen, A. Buxens, L. Oxenloewe, C. Peucheret, A. Kloch, T. Fjelde,D. Wolfson, P. Jeppesen, Technical University of Denmark, Denmark
7.4.2 Multiwavelength All-Optical Clock Recovery Using an Integrated Semiconductor
Optical Amplifier Array 63
V. Mikhailov, P. Bayvel, University College London, UK
7.4.3 Wavelength Conversion of Picosecond Optical Pulses Using Four-Wave Mixingin a DFB Laser 65
H. Kuwatsuka, T. Simoyama, H. Ishikawa, Fujitsu Laboratories Ltd.;T. Akiyama, Femtosecond Technology Research Association, Japan;B. E. Little, Massassuchets Institute of Technology, USA
7.4.4 40 Gb/s Wavelength Conversion in a Cascade of an SOA and a NOLM
and Demonstration of Extinction Ratio Improvement 67
J. Yu, P. Jeppesen, Technical University of Denmark, Denmark
7.4.5 Generation of a Multi-Wavelength RZ-Optical Source at 40 GHz by Use
of Wavelength Conversion in a Nonlinear Optical Loop Mirror 69
J. Yu, X. Zheng, Y. Qian, P. Jeppesen, Technical University of Denmark, Denmark
Session 8.1 - Metropolitan Networks
Chairman: J. Marti, Universidad Politecnica Valencia, Spain
8.1.1 Invited paper: Experience Gained Introducing Broadband Infrastructure
to Subscribers in Swedish Urban Areas 71
A. Rockstrom, Telia, Sweden
8.1.2 TDM/CDM/WDM Approach for Metro Networks with 200 Optical Channels 77
T. Pfeiffer, H. Schmuck, B. Deppisch, M. Witte, Alcatel SEL,J. Kissing, Universitat Dortmund, Germany
8.1.3 Simultaneous Delivery of 1280 Video Channels over a WDM Passive
Optical Network 79
K. C. Reichmann, P. P. lannone, M. Birk, N. J. Frigo, and C. F. Lam,
AT&T Labs-Research, USA
8.1.4 Scalability Of A Metropolitan Multi-Fiber Bidirectional WDM-Ring Network 81
K. Yla-Jarkko, S. Tammela, VTT Electronics, T. Niemi, Helsinki University of Technology,
A. Tervone, Nokia Research Center, Finland
8.1.5 Multicast-Capable Access Nodes for Slotted Photonic Ring Networks 83
S. Aleksic, K. Bengi, Technische Universitat Wien, Austria
8.1.6 WRAP: A Media Access Control Protocol for Wavelength-Routed Passive
Optical Networks 85
M. J. Spencer, M. A. Summerfield, University of Melbourne, Australia
Session 8.2 - Non- Linear Effects II
Chairman: I. Bennion, Aston University, UK
8.2.1 Invited paper: Coherent Optical Amplifiers 87
A. Takada, W. Smajuku, NTT, Japan
8.2.2 Polarization Multiplexing Technique for SBS Suppression 91
A. Yeniay, J. Toulouse, Lehigh University, J.-M. Delavaux, Lucent Technologies, USA
9
8.2.3 Noise in Fiber XPM Wavelength Converters due to Excitation of RandomHigher Order Solitons 93L, Rau, B.-E. Olsson, M. MaSanovic, D. J. Blumenthal, University of California, USA
8.2.4 Electrostriction-lnduced Acoustic Response in Single-Mode Ring-Index ProfileFibers with Larger then 100um2 Effective Mode Area 95Y. Jaouen, G. Debarge, Ecole Nationale Superieure des Telecommunications;L. du Mouza, Alcatel CRC; P. Nouchi, L. A. de Montmorillon, Alcatel Cable, France;E. M. Dianov, A. S. Biriukov, M.E. Sukharev, Russian Academy of Sciences, Russia
8.2.5 Nonlinear Coefficient Round Robin Measurements for Various DispersionShifted Fibers in Japan and UK 97Y. Namihira, KDD R&D Laboratories Inc., Japan
Session 8.3 - Transmission Techniques and Modulation FormatsChairman: K. Petermann, Technical University Berlin, Germany
8.3.1 Femtosecond Optical Pulse Transmission over 144 km Using Midspan SpectralInversion with a LiNb03 Waveguide 99D. Kunimatsu, M. D. Pelusi, X. Wang, A. Suzuki, The Femtosecond Technology Research
Association; C. Q. Xu, OKI Electric Industry Co. Ltd.; K. Kikuchi, University of Tokyo, Japan
8.3.2 Experimental Demonstration Of Enhanced Phase-Shaped BinaryTransmission 101
H. Bissessur, L. Pierre, D. Penninckx, J-P. Thiery, J-P Hamaide, Alcatel CRC, France
8.3.3 Practical 2x10 Gbit/s Polarization Division Multiplex Transmission System ....103
D. Sandel, S. Hinz, R. Noe, F. Wiist, Universitat Paderbom, Germany
8.3.4 Fundamental Limits of Optical Regeneration by Synchronous IntensityModulation 107
0. Leclerc, Alcatel Corporate Research Center, E. Desurvire,Alcatel Submarine Network divisions, France
8.3.4 Enhanced Phase-Shaped Binary Transmission Modulation Format
for Dispersion-Managed WDM Systems Ill
J. C. Antona, D. Penninckx, Alcatel, Centre, France
8.3.5 A Novel Chirped Return-to-Zero Transmitter and Transmission Experiments ....113
F. Liu, C. Peucheret, X. Zheng, R. J. S. Pedersen, P. Jeppesen, Technical Universityof Denmark, Denmark
Session 8.4 - Optical Signal Processing II
Chairman: G. Parry, Imperial College, UK
8.4.1 Invited paper: Integrated SOA-Based Interferometers for All-Optical Signal
Processing *15
C. Janz, B. Dagens, J.-Y. Emery, OPTO+; M. Renaud, B. Lavigne, Alcatel, France
10
8.4.2 All-Optical Wavelength Conversion up to 100 Gbit/s with SOA
Delayed-lnterference Configuration 119J. Leuthold, B. Mikkelsen, G. Raybon, C.H. Joyner, J. L. Pleumeekers, B. I. Miller,K. Dreyer, C. A. Burrus, Lucent Technologies, USA
8.4.3 Chirp Optimised Operation of an Optical 3R Regenerator 121P. Guerber, B. Lavigne, A. Jourdan Alcatel Corporate Research Centre, France, C. Janz,OPTO, France, D. Wolfson, T. Fjelde, A. Kloch, Technical University of Denmark, Denmark
8.4.4 Monolithically Integrated MZI Comprising Band Gap Shifted SOAs:A new Switching Scheme for Generic All-Optical Signal Processing 123T. Tekin, M. Schlak, W. Brinker, B. Maul, R. Molt, Heinrich-Hertz-lnstitutftir Nachrichtentechnik Berlin GmbH, Germany
Poster Session 1
P 1.1 Wideband Tunable Erbium-Doped Fiber Ring Laser: Simulation
and Experiment 125A. Bellemare, Ch. Riviere, F. Babin, G. H, G. W. Schinn, EXFO Electro-OpticalEngineering Inc., Canada; M. Karasek, Academy of Sciences of the Czech Republic,Czech Republic
P 1.2 Pulse Width Restoration and PMD Suppression using Fiber Self-Phase
Modulation 127
B.-E. Olsson, D.J. Blumenthal, University of California, USA
P 1.3 High power (+23.7 dBm} single-pump YB-free double-clad EDFA FOR WDM
applications in the C-band 129
F. Leplingard, P. Bousselet, L. Gasca, A. Tardy, L. Lorcy, D. Bayart, Alcatel,M. Bettiati, Opto+, France
P 1.4 Equalization of Polarization Maintaining EDFA Gain with Slanted
Bragg Gratings. Impact of the Residual Reflectivity 131
L. Brilland, L. Lablonde, R. Lebref, D. Pureur, M. L. Moulinard, Highwave OpticalTechnologies; L. Billes, France Telecom, France
P 1.5 Experimental Comparison of Raman Thresholds of Different Transmission
Fibre Types 133
P. M. Krummrich, R. E. Neuhauser, G. Fischer, Siemens AG, Germany
P 1.6 Phosphosilicate Glass Optical Fibers: a Promissing Material
for Raman Lasers 135
E. M. Dianov, M. M. Bubnov, E. B. Kryukova, V. G. Plotnichenko, A. A. Rybaltovskii,V. 0. Sokolov, A. N. Gurianov, V. F. Hopin, Russian Academy of Sciences, Russia
P 1.7 Effective Area Of Single-Mode Optical Fibres - A Comparison Of Four
Measurement Techniques 139
R. S. Billington, D. A. Humphreys, A. Parker, B. Walker, D. S. Wells, National Physical
Laboratory. UK; I. Bongrand, Universite de Nice, France; A. G Hallam, GN Nettest Ltd., UK
P 1.8 Fiber Effective Area and Raman-Pumped 40 Gb/s Transmission Systems 143
A. F. Judy, C. Kann, Lucent Technologies, USA
11
P 1.9 Statistical Impact of EDFA Polarization Mode Dispersion on Long-Haul OpticalSystems 147D. Chowdhury, E. Brarens, S. Nipple, A. Zainul, and f. Hanson, Corning Incorporated,UoM
P 1.10 Influence of Cross-Talk and Pump Depletion on the Design of Raman Amplifiersfor WDM Systems 149A. Berntson, E. Goobar, S. Popov, L. Helczynski, G. Jacobsen, J. Karlsson,Ericsson Telecom AB, Sweden
P 1.11 Measurement of Polarization Mode Dispersion (PMD) with a MultiwavelengthFiber Laser 151S. Yamashita, T. Baba, University of Tokyo; Y. Namihira, KDD R&D Laboratories Inc.,Japan
P 1.12 High Performance Dispersion Compensating Fiber Modules by Novel
Bobbinless Packaging Technique 153T. Fujii, K. Tamano, K. Fukuda, E. Yanada, E, Sasaoka, Sumitomo Electric Industries,Japan
P 1.13 Simultaneous Multiplication of Multi-Wavelength Pulse Repetition Rates 155
J. Azana, M.A. Muriel, Universidad Politecnica de Madrid, Spain
P 1.14 Optimal Configuration for Hybrid Raman/Erbium-Doped Fiber Amplifiers 157
A. Carena, V. Curri, R. Gaudino, P. Poggiolini, Politecnico di Torino, Italy
P 1.15 Broadband PMD Compensation in WDM Systems 159
L. Moller, Lucent Technologies, USA
P 1.16 Temperature Dependence of Gain and Noise Figure in L-band and C-band
EDFA's 161
F. A. Food, Corning Inc., USA
Poster Session 2
P 2.1 Detailed Investigation of the Cascadability of SOA-Based Gates for all-OpticalSwitching 163
D. Wolfson, A. Kloch, T. Fjelde, Technical University of Denmark, Denmark
P 2.2 High Resolution Monitoring of VCSEL Emission Wavelength Using a
UV-Embossed Planar Waveguide Structure 165
G. Blau, M. T. Gale, J. Sochtig, Ch. Zschokke, R. Hovel, K. Gulden, CSEM, Switzerland
P 2.3 Discrete Bonded 1.3/1.55 um Bi-Directional Optical Module with Integrated
Preamplifier and Low Crosstalk 167
M. Kudo, T. Terashima, T. Nakamura, Oki Electric Industry, Japan
P 2.4 Simultaneous Interferometric Crosstalk Suppression in WDM Channels Using
Polarization Multiplexing Technique and SOA 169
X. Zheng, F. Liu, J. Yu, D. Wolfson, A, Kloch, T. Fjelde, Technical University of Denmark,
Denmark
12
P 2.5 All-Optical Clear/Drop Optimisation for 4 x 40 Gbit/s Signals in Mach-ZehnderInterferometers Based on Semiconductor Optical Amplifiers 171S. Bischoff, J. M0rk, Technical University of Denmark, Denmark
P 2.6 Benefit of RZ Format in Optical Switching Systems Based on SOA Technology ..173
T. Zami, J. Da Loura, L. Noirie, A. Jourdan, Alcatel Corporate Research Center, France
P 2.7 Virtually Ripple-Free, Multi-Channel, Adaptive Dispersion Compensator Basedon a Re-Multiplexing AWG Cascade 175M. C. Parker, Fujitsu Telecommunications Europe Ltd. Research, UK, S. D. Walker,University of Essex, UK
P 2.8 Multimode Interference Couplers with Tuneable Splitting Ratios 177J. Leuthold, C.H. Joyner, Bell Labs, Lucent Technologies, USA
P 2.9 Demonstration of Nonreciprocal Phase Shift in Optical Isolator with
Semiconductor Guiding Layer 179H. Yokoi, T. Mizumoto, N. Shinjo, Tokyo Institute of Technology;N. Futakuchi, Y. Nakano, University of Tokyo, Japan
P 2.10 New Athermal Very Dense Wavelength Division Multiplexers 181J. P. Laude, Jobin Yvon, France
P 2.11 UV Poling of Specially Optical Fiber with a Charge Trapping Layer 183
P. Blazkiewicz, W. Xu, S. Fleming, G. Town, T. Ryan, University of Sydney, Australia;D. Wong, Corning Incorporated, USA
P 2.12 Crystallization and Optical Nonlinearity in UV-Poled Glass 185
S. Matsumoto, M. Ohama, K. Saito, J. Ikushima, Toyota Technological Institute;T. Fujiwara, Nagaoka University of Technology, Japan
Poster Session 3
P 3.1 320 Gbit/s Single Channel Transmission Over 4,500 Km Using Short Period
Dispersion Management 187
L. J. Richardson, W. Forysiak. N. J. Doran, Aston University, UK
P 3.2 Reduction of Interactions and Collisions in Dispersion-Managed Soliton
Transmissions with Distributed Raman Amplification 189
E. Pincemin, France Telecom, D. Hamoir, 0. Audouin S. Wabnitz, Alcatel, France
P 3.3 Maximum Link Length Versus Data Rate for SPM Limited Transmission
Systems 191
G. Moris, M. Stadler, C. Furst, H. Geiger, G. Fischer, Siemens AG, Germany
P 3.4 Comparison Of Nonlinear Crosstalk For RZ And NRZ Coding In WDM Systems ..193
C. Furst, C. Scheerer, G. Mohs, H. Geiger and G. Fischer, Siemens AG, Germany
P 3.5 Optimised Design Of Transparent Optical Domains 195
N. Hanik, C. Caspar, F. Schmidt, T-Nova, R. Freund, L. Molle, Heinrich Hertz Insitut
fur Nachrichtentechnik Berlin GmbH, Germany; C. Peucheret, Technical Universityof Denmark, Denmark
13
P 3.6 Investigation of Cross-Phase Modulation in WDM Systems with NRZand RZ Modulation Formats iggJ. Yu, P. Jeppesen; Technical University of Denmark, Denmark
P 3.7 Analytical and Numerical Evaluation of the Effects of SPM, XPM and FWMin L-Band EDFAs on Signal Transmission 201K. Song, M. Premaratne, University of Melbourne, Australia
P 3.8 Ultimate Limits of Optical Polarisation-Mode Dispersion Compensators 205D. Penninckx, S. Lanne, Alcatel Corp., France
P 3.9 Field Optical PMD Compensation at 10 Gb/s over Installed Fibre Totalling35 ps of PMD 207S. Lanne, J-P. Thiery, D. Penninckx, J-P. Hamaide, Alcatel CRC, J-P. Soigne, B. Desthieux,Alcatel Optical Platform & Technology; J. Le Briand, L. Mace, P. Gavignet,France Telecom R&D, France
P 3.10 Adaptation of an Electronic PMD Mitigator by Maximization
of the Eye Opening 209H. Biilow, W. Baumert, F. Buchali, W. Kuebart, Alcatel Corp. Research Center, Germany
P 3.11 A New Point of View Regarding Higher Order PMD Pulse Distortion:
Pulse Spreading Interpreted as Multi Path Propagation 211
R. Leppla, W. Weiershausen, T-Nova Deutsche Telekom Innovationsgesellschaft mbH,Germany
P 3.12 Impact of Parametic gain on 10 GB/s Dispersion-managed Transmissions 213
G. Bellotti, P. Serena, A. Bononi, DIP. Ingeneria Informazione, Italy, S. Bigo,ALCATEL CRC, France
P 3.13 Statistical Analysis of Solition Propagation In Fibers with Polarization-Mode
Dispersion 217
C. Xie, M. Karlsson, P. A. Andrekson, H. Sunnerud, Chalmers University of Technology,Sweden
P 3.14 Novel Single/Multiple Wavelength RZ Pulse source Based on Four-Wave
Mixing in Newly Developed Highly Non-linear Fibre 221
L. Gruner-Nielsen, Lucent Technologies, Denmark, A.T. Clausen, L. Oxenlbwe,C. Peucheret. S. N. Knudsen, A. Bjarklev, S. Barkou, H. N. Poulsen, P. Jeppesen,
Technical University of Denmark, Denmark
P 3.15 Implementation of Near Optimum Electrical Equalisation at 10 Gbit/s 223
H. F. Haunstein, K. Sticht, Lucent Technologies Network Systems GmbH; A. Dittrich,M. Lorang, W. Sauer-Greff, R. Urbansky, University of Kaiserslautem, Germany
P 3.16 Impact of Optical Demultiplexers on DWDM Transmission of 40 Gbit/sChannels 225
H. Bock, G. Mohs, C. Furst, H. Geiger, G. Fischer, Siemens AG, Germany
P 3.17 Optical SNR Monitoring in Optical Networks Using Subcarier Multiplexing 227
G. Rossi, D. J. Blumenthal, University of California, USA
14
P 3.18 Return-to-zero Modulation for Extending Multimode Fibre Data Linksto 10 Gb/s 229M. Webster, J.D. Ingham, A.B. Massara, A. Wonfor, R.V. Penty, I.H. White,University of Bristol, UK
P 3.19 High-speed parallel optical links (PAROLI) for increased transmission lengths . .231
I. Schmale, Infineon Technologies, Germany
Poster Session 4
P 4.1 Optical Packet Addressing Scheme Using RF Frequency Carrier Assignment. . .233
K. Lee, S. Lee, J. Park, Korea University, Korea
P 4.2 Bundling Wavelengths in Optical Transport Networks 235
E. Ciaramella, Fondazione Ugo Bordoni, Italy
P 4.3 Management of Connection Services in Dynamic Optical Networks 237
S. Hubendick, Telia Research AB, J. Soderqvist, Ericsson Telecom AB, Sweden
P 4.4 Demonstration of a Histogram Based QoS Tool Integrated with a Network
Management System 239
T. Kauppinen, A. Gavler, M. Adrian, C. Popp-Larsen, Ericsson Telecom, R.-P. Braun,N. Hanik, T-Nova, T. Edhag, L. Johannesson, Ericsson Infotech, Sweden
P 4.5 An All-Optical Code Converter Scheme for OCDM Routing Networks 241
Y. Wen, L. K. Chen, K. Ho, F. Tong, Lightwave Communiaction Lab., Hong Kong, Sweden
P 4.6 The Staggered Filter Architecture: a WDM PON with dynamic wavelengthassignment 243
M. R. Handley, P. Ball, I. Wright, Fujitsu Telecom, UK, M. S. Leeson, University of Warwick,J. M. Senior, University of Hertfordshire, A. J. Phillips, Manchester Metropolitan University, UK
P 4.7 A novel Jini-based Management System 245
T. Edhag, Ericsson Business Consulting AB, L. Johannesson, Ericsson Infotech AB
P 4.8 Cascading and Routing 14 Optical Packet Switches 247
K. Guild, A. Tzanakaki, H. Lee, M.J. O'Mahony, University of Essex, M. Chia, M.Nizam,
I. Andonovic, D. Hunter, University of Strathclyde; S. Yu, A. Wonfor, R. Varrazza,
R. V. Penty, I. H. White, University of Bristol, UK
P 4.9 Performance Monitoring for Transparent Optical Netwoks 249
L. M. Lunardi, M. D. Feuer, M. A. Thomas, AT & T Labs-Research, USA
Session 9.1 - Soliton Transmission
Chairman: P. Andrekson, Chalmers University of Technology, Sweden
9.1.1 Tutorial: Dispersion-Managed Solitons for Ultra-Long-Distance, Dense WDM....
251
L. F. Mollenauer, Lucent Technologies, USA
See separate Volume
15
9.1.2 Experimental Quantification of Soliton Robustness to Polarization-Mode
Dispersion 253
H. Sunnerud, J. Li, P. A. Andrekson, C. Xie, Chalmers University of Technology, Sweden
9.1.3 Time-Wavelength Visualisation of Femtosecond Optical-Fibre Solitons 255
K. Ogawa, M. D. Pelusi; The Femtosecond Technology Research Association, Japan
9.1.4 Stability Analysis of Regenerated Dispersion-Managed Soliton Transmissions. . .
257
A. Tonello, A. D. Capobianco, Istiuto Nazionale per lo Fisica della Materia, Italy;S. Wabnitz, 0. Leclerc, B. Dany, Alcatel Corp. Reseach Center, E. Pincemin,France Telecom R&D, France
9.1.5 Location Effect Of Dispersion Compensation Elements In 40 Gbit/s Soliton
Transmission Line 259
K. Shimoura, I. Yamashita, S. Seikai, Kanasi Electric Power, Japan
Session 9.2 - Advanced Photonic Nodes
Chairman: H. de Waardt, Technical University Eindhoven, The Netherlands
9.2.1 Invited paper: Recent Advances in Photonic Nodes 261
M. Koga, NTT, Japan
9.2.2 lTbit/s (25 x 40 Gbit/s) Transmission over 100 km Transparent Network
with 5 OADM Nodes Using AWG Filters 263
Y. Horiuchi, S. Yamamoto, KDD R&D Lab., Japan
9.2.3 Demonstration of OC-192 40-Channel Add-Drop Node Using Two Integrated
Add-Drop and Dynamic Equalization Devices 267
R. Monnard, C. R. Doerr, A. Bing, L. W. Stulz, 0. Clarke, S. Shunk, M. Cappuzzo,L. Gomez, A. Paunescu, and E. Laskowski, Bell Laboratories, Lucent Technologies, USA
9.2.4 Multi-Granularity Optical Cross-Connect 269
L. Noirie, C. Blaizot, E. Dotaro; Alcatel Corporate Research Center, France
9.2.5 An Optically Controlled Wavelength Selective Switch Using a Fabry-PerotLaser Diode 271
L. Y. Chan, F. Tong, L. K. Chen, K. P. Ho, Chinese University of Hong Kong, Hong Kong
9.2.6 Fast Tunable Wavelength Conversion for All-Optical Packet Switching 273
E. Ciaramella, G. Contestabile, F. Curti, A. D'Ottavi, Fondazione Ugo Bordoni, Italy
9.2.7 8X8 Holographic Liquid Crystal Switch 275
N. Wolffer, R. Lever, P. Gravey, ENST Bretagne, B. Vinouze, France Telecom R&D,
L. Bramerie, ENSSAT, France
16
Session 9.3 - Planar and Micro- Optic DevicesChairman: G. Someda, Padova University, Italy
9.3.1 Invited paper: Potential of the LIGA Technology for the Mass Production
of Micro-Optical Components 277W. Ehrfeld, H.-D. Bauer, Inst. f. Mikrotechnik, Germany
9.3.2 Polarization Independent Vertically Coupled Microring Resonator Filter 281
Y. Kokubun, S. Kubota, Yokohama National University;S. Tak Chu, National Institute of Standards and Technology, Japan
9.3.3 Bidirectional Fiber Grating Optical Channel Monitor for DWDM Networks 285
C. Koeppen, J.L. Wagener, S. Wielandy, Y. Cai, J. DeMarco, Lucent Technologies, USA
9.3.4 Low Loss Variable Attenuation Slope Compensator with High Slope LinearityBased on Planar Lightwave Circuit 287
H. Hatayama, C. Hirose, K. Koyama, S. Semura, M. Nishimura, Yokohama Research Lab.,
Japan
9.3.5 Data Transmission at 3 GBit/s over Intraboard Polymer Waveguideswith GaAs VCSELs 289
M. Kicherer, F. Mederer, R. Jager, H. Unold, KJ. Ebeling, University of Ulm;S. Lehmacher, A. Neyer, University of Dortmund; E. Griese, Siemens AG, Germany
9.3.6 WDM Multi-Channel Nonlinear Device Utilizing Inhomogeneously-BroadenedGain of Self-Assembled Quantum Dots r
291
T. Akiyama, 0. Wada, The Femtosecond Technology Research Association, H. Kuwatsuka,
T. Simoyama, Y. Nakata, K. Mukai, M. Sugawara, H. Ishikawa, Fujitsu Laboratories, Japan
Session 9.4 - Optical Signal Processing III
Chairman: E. Voges, University Dortmund, Germany
9.4.1 Invited paper: All-Optical 3R Signal Regeneration 293
B. Sartorius, Heinrich Hertz Institut, Germany
9.4.2 All-optical 3R Regeneration of WDM Signals Using WDM-OTDM-WDM Conversions
in Two-stage Nonlinear Fiber Loop Interferometers 297
S. Watanabe, S. Takeda, K. Hironishi, F. Futami, T. Chikama, Fujitsu Laboratories Ltd.,
Japan
9.4.3 Photonic Gateway for TDM-WDM-TDM: 40 Gbit/s (4x10 Gbit/s conversion
and reconversion 301
K. Kitayama, T. Hashimoto, W. Chujo, Osaka University; H. Sotobayashi,
Ministry of Posts and Telecommunications, Japan
9.4.4 Wavelength Conversion in an Electroabsorption Modulator 303
L. K. Oxenloewe, A. T. Clausen, H. N. Poulsen, Technical University of Denmark, Denmark
9.4.5 A simple Optical Demultiplexing Method Using Saturable Absorption
of EA Modulator 305
K. Shimomura, K. Shimizu, K. Ishida, T, Sugihara, Y. Kobayashi, Mitsubishi Electric Corp.,
Japan
17
9.4.6 Electroabsorption Modulator as a Compact OTDM Demultiplexing Receiver....
309V. Kaman, J. E. Bowers, University of California; A. J. Keating, Chromisys Inc.;S. Z. Zhang, Agilent Technologies, USA
9.4.7 Data Encoded Pulse Source Using a Single Electro-Absorption Modulator 311G. Mohs, C. Furst, H. Geiger, G. Fischer, Siemens AG, Germany
18