151 × 43 Gbit/s transmission over 4080 km based on return-to-zero-Differential quadrature phase-shift keying25×40 Gbit/s copolarised DPSK transmission over 12 × 100km NZDSF with 50 GHz channel spacingWhat has hybrid phase / intensity encoding brought to 40 Gbit/s ultra-long haul systemsVSB CSRZ for spectrally efficient optically routed networks43 Gbit/s Bit error rate assessment of a simple all optical clock recovery scheme, XURSHDQ &RQIHUHQFH RQ 2SWLFDO &RPPXQLFDWLRQ PD 1.3XURSHDQ &RQIHUHQFH RQ 2SWLFDO &RPPXQLFDWLRQFirst demonstration of all-optical clock recovery at 40 GHz with standard compliant jitter characteristics based on a quantum-dots self-pulsating semiconductor laser' , (XURSHDQ &RQIHUHQFHRQ2SWLFDO&RPPXQLFDWLRQ PD.3.4, pp.872-875, 1996. ,
Academic press Optics and PhotonicsRandom walk of coherently amplified solitons in optical fiber transmissionReceiver design for digital fiber optic communications systems, Margin measurements in optical amplifier systems' ,(((3KRWRQLFV7HFKQRORJ\/HWWHUV, pp.665-843, 1973. ,
Monolithic widely tunable optical packet forwarding chip in InP for all-optical label switching with 40 Gbit/s payloads and 10 GbitAll-optical signal regeneration : from first principles to a 40 Gbit/s system demonstrationCascadability assessment of the 4*4 fullequiped wavelength routing switch of acts / Keops european project' , (XURSHDQ &RQIHUHQFHRQ2SWLFDO&RPPXQLFDWLRQ40 Gbit/s transmission over 80 000 km dispersion shifted fiber using opto-electronic-3R regeneration' , (XURSHDQ &RQIHUHQFHRQ2SWLFDO&RPPXQLFDWLRQOptical fiber telecommunications IV B' , Academic PressEtude de la régénération optique dans les systèmes de transmissions à très haut débit' , 7KqVHGHGRFWRUDWGHO ¶8QLYHUVLWpGH5HQQHVGaInAsP semiconductor laser optical amplifiers for single-mode fiber communicationsAcceleration of gain recovery in semiconductor optical amplifiers by optical injection near transparency wavelengthTwo-stage wavelength converter with improved extinction ratioRepetition rate dependance of gain compression in In GasAsP optical amplifier using picosecond optical pulsesLarge room-temperature optical nonlinearity in GaAs/Ga 1-x Al x As multiple quantum well structures290 fs switching time of Fe-doped quantum well saturable absorbers in a microcavity in 1.55 µm rangeRegeneration capabilities of passive saturable absorber-based optical 2R in 20 Gbit/s RZ DWDM long-haul transmissions', 3KRWRQLFV 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH2)&, PD15-2RXUQDORI4XDQWXP(OHFWURQLFV 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH 2)&, FD1110 Gbit/s all-optical 2R regeneration using an MQW Fabry- Perot saturable absorber and a nonlinear fiber' ,((( 3KRWRQLFV 7HFKQRORJ\ /HWWHUV, pp.163-173, 1941. ,
All-optical regeneration at the receiver of 10 Gbit/s RZ data transmitted over 30 000 km using an electroabsorption, pp.205-207, 2000. ,
All-optical 2R regenerative wavelength conversion of 40 Gbit/s RZ data using electro-absorption modulator with shifted bandpass filterA Novel Monolithically Integrated Mach-Zehnder Wavelength Converter Using Cross Modulation in Electro-Absorber' , (XURSHDQ &RQIHUHQFH RQ 2SWLFDO &RPPXQLFDWLRQ(&2&, We.1.5.1, Glasgow 40 Gbit/s alloptical wavlength conversion, regeneration and demultiplexing in an SOA-based allactive Mach-ZehnderLow input power all-optical 3R regenerator based on SOA devices for 42.66 Gbit/s ULH WDM RZ transmissions with 23 dB span loss and EDFA amplificationPenalty free error free all-optical data pulse regeneration at 84 Gbit/s by using a symetric Mach-Zehnder-type semiconductor regeneratorVery low threshold Sagnac switch incorporating an Erbium doped fiber amplifierExperimental demonstration of simple NOLM-based 2R regenerator for 42, 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH 2)&, WM53 2SWLFDO )LEHU &RPPXQLFDWLRQ&RQIHUHQFH2)&, PD. 1566 Gbit/s WDM long-haul transmissions', 2SWLFDO)LEHU&RPPXQLFDWLRQ&RQIHUHQFH2)&WN4 2004. [26] M. Eiselt, W. Pieper, H. G. Weber, 'SLALOM : Semiconductor Laser Amplifier in a loop mirror', -RXUQDORI/LJKWZDYH7HFKQRORJ\27] J. Yu, P. Jeppesen, '40 Gbit/s wavelength conversion in a cascade of an SOA and a NOLM and demonstration of extinction ratio improvement', (XURSHDQ&RQIHUHQFHRQ 2SWLFDO&RPPXQLFDWLRQ(&2&, pp.1-3, 1990. ,
Simultaneous realization wavelength conversion and signal regeneration using a nonlinear optical loop mirror', 2SWLFV&RPPXQLFDWLRQV, noExperimental analysis of SOA based 2R and 3R optical regeneration for future WDM networksAll-optical data regeneration based on self-phase modulation effects, 2SWLFDO)LEHU &RPPXQLFDWLRQ&RQIHUHQFH2), pp.173-177, 2000. ,
Integrated all-optical regenerator in chalcogenide glass, 31st European Conference on Optical Communications (ECOC 2005) ,
DOI : 10.1049/cp:20050537
80 Gbit/s regenerative wavelength conversion using a hybrid Raman / EDFA gain-enhanced XPM converter with Highly-Nonlinear-FiberPolarity preserving SOA-based wavelength conversion at 40 Gbit/s using bandpass filtering'Regenerated 40 Gbit/s long-haul transmission using all-optical SOA-MZI as loss-free synchronous modulationBlack box optical regenerator for RZ transmission systemsAnalysis of 2R optical regenerator utilising self phase modulation in highly non linear fiber', 2SWLFDO)LEHU&RPPXQLFDWLRQ&RQIHUHQFH2)&, TuH2 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH2)&, WF6, pp.193-194576, 1999. ,
Investigation of fibre launch power margin in 40Gbit/s transmission with all-optical regenerator, 6<67, vol.1606648877, issue.2374, 2005. ,
All optical 2R regenerative wavelength converter of 40 Gbit/s RZ data using electro-absorption modulator with shifted band-pass filterRegenerated 40 Gbit/s long-haul transmission using all-optical SOA-MZI as loss-free synchronous modulation' , 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH2)&, WF6Optical 3R regeneration in 40 Gbit/s Pseudo-linear transmission systemsDerivation of analytical expressions for the Bit error probability in lightwave systems with optical amplifiers, 3URF, 2SWLFDO)LEHU&RPPXQLFDWLRQ&RQIHUHQFH2)&High capacity long haul transmission experiments' 3URF(XURSHDQ&RQIHUHQFHRQ 2SWLFDO&RPPXQLFDWLRQECOC12] P. Humblet, 'On the bit error rate of lightwave systems with optical amplifier' , -RXUQDORI/LJKWZDYH7HFKQRORJLHV, pp.191-193, 1976. ,
Large room-temperature optical nonlinearity in GaAs/Ga 1-x Al x As multiple quantum well structures' , $SSOLHG3K\VLFV, 290 fs switching time of Fe-doped quantum well saturable, p.48, 1681. ,
[5] H. Choumane, 'Etude de dispositifs tout-optiques à absorbants saturable ultra rapides pour application aux transmissions optiques à très haut débit' 7KqVHGHGRFWRUDW GHO ¶8QLYHUVLWpGH3DUL, 2UVD\, pp.5926-5928, 2003. ,
Etude de composants absorbants saturables à semi-conducteurs à multi-puits quantiques dopés au Fer pour la régénération de signaux optiques à très hauts débits d' information' , 7KqVHGHGRFWRUDWGHO ¶8QLYHUVLWpGH5HQQHVAnalysis of 2R optical regenerator utilising self phase modulation in highly non linear fiber', pp.576-577, 2002. ,
40 Gbit/s optical 2R regenerator based on passive saturable absorber for WDM long-haul transmission' , 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH, FD11Regeneration capabilities of passive saturable absorber-based optical 2R in 20 Gbit/s RZ DWDM long-haul transmissions', pp.857-859, 2002. ,
In-line saturable absorber in transmission systems with cascaded semiconductor optical amplifiersNoise and regeneration in semiconductor waveguides with saturable gain and absorption, pp.245-255, 2004. ,
Extremly fast high-gain and low-current SOA by optical speedup atNonlinear models of travelling-wave optical amplifiers', pp.1453-1455, 1988. ,
A Semiconductor optical amplifier with an extremly high penalty-free output power of 20 dBm achieved with quantum dots160 Gbit/s SOA all-optical wavelength converter and assessment of its regenerative properties', Agrawal, N.A.Olsson, 'Self-phase modulation and spectral broadening of optical pulses in semiconductor laser amplifiers', pp.4-2297, 1989. ,
All-optical multiwavelength clock recovery using integrated semiconductor amplifier array module, Electronics Letters, vol.37, issue.4, 2001. ,
DOI : 10.1049/el:20010181
Optimisation des architectures de réseau optique multiplexé en longueur d' onde à base d' amplificateur semiconducteur optique' , 7KqVHOptoelectronic and all-optical wavelength translators and their cascadability' , 2SWLFDO )LEHU &RPPXQLFDWLRQV 2)&, FJ1Measurements and modelling of pattern-dependent BER and jitter in reshaping optoelectronicInvestigation of transmission with cascaded all-optical 3R regenerators and variable inter-regenerator spacing'Etude de dispositifs tout-optiques à absorbants saturables ultra rapides pour application aux transmissions optiques à très haut débit' , 7KqVHGH'RFWRUDW GHO ¶8QLYHUVLWpGH3DULV, Cascadability and wavelength tunability assessment of a 2R regeneration device based on saturable absober and semiconductor optical amplifier' , 2SWLFDO )LEHU &RPPXQLFDWLRQV 2)&, OthB1, pp.97-103, 2000. ,
utilisation de fibres microstructurées à verre de chalcogénure permettrait d' améliorer de manière significative les caractéristiques du dispositif à élargissement spectral et filtrage décalé pour la régénération. Les propriétés fortement non linéaires de ce type de fibre permettraient d' abaisser la puissance de commutation du dispositif et de diminuer la longueur de fibre nécessaire. La puissance de commutation de ce dispositif reste malgré tout élevée (200 mW), en utilisant des paramètres de fibre micro structurée à verre de chalcogénure qui semblent réalisables d' après la littérature. L' étude a montré d' autre part que si la forte dispersion normale de ce type de fibre pouvait être abaissée ceci permettrait l ,
Ils ont fait une étude plus réaliste en tenant compte du caractère aléatoire du bruit d' émission spontanée amplifiée [10], Jacques and M. Kauer ,
A highly nonlinear holey fiber and its application in a regenerative optical switchVisible continuum generation in air-silica microstructure optical fibers with anomalous dispersion at 800 nmPhotonic crystal fibres ? The, 2SWLFDO)LEHU&RQIHUHQFH2)&, TuC3-1Holey optical fiber based on chalcogenide glasses' , WK DQQXDO PHHWLQJ RI WKH $PHULFDQ &HUDPLF6RFLHW\RXUQDORI3K\VLFVBaltimore, pp.25-27, 2000. ,
Ultrafast all-optical switching using highly nonlinear chalcogenide glass fiberIntegrated all-optical regenerator in chalcogenide glassOptical 3R regeneration in 40 Gbit/s Pseudo-linear transmission systems, XURSHDQ &RQIHUHQFH RQ 2SWLFDO &RPPXQLFDWLRQ (&2&, We.2.4.3 3URF 2SWLFDO )LEHU &RPPXQLFDWLRQ &RQIHUHQFH 2)&All-optical data regeneration based on self-phase modulation effects' 3URF (XURSHDQ &RQIHUHQFH RQ 2SWLFDO &RPPXQLFDWLRQ (&2& pp, pp.362-365, 1992. ,
Cascadability and wavelength tunability assessment of a 2R regeneration device based on saturable absorber and semiconductor optical amplifier, 2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference, 2006. ,
DOI : 10.1109/OFC.2006.215684
URL : https://hal.archives-ouvertes.fr/hal-00080253
Experimental Study of Reshaping Retiming Gates for 3R Regeneration, pp.545-551, 2004. ,
DOI : 10.1007/0-387-23178-1_70
URL : https://hal.archives-ouvertes.fr/hal-00149451
Cascadability Assessment of a 2R Regenerator Based on Saturable Absorber and Semiconductor Optical Amplifier in a Path Switchable Recirculating Loop', soumission 3KRWRQLFV7HFKQRORJ\, 2006. ,
Evaluation du potentiel des fibres à trous à verre de chalcogénure pour la régénération pour la régénération tout-optique, 2003. ,
Performance of a Polarization Insensitive 3R Optical Regenerator Based on a new SOA-NOLM Architecture, XURSHDQ&RQIHUHQFHRQ2SWLFDO&RPPXQLFDWLRQ, ECOC, We.2.5.2, 2004. ,
URL : https://hal.archives-ouvertes.fr/hal-00148598
All-optical regeneration techniques', $QQDOHVGHVWpOpFRPPXQLFDWLRQV, pp.11-12, 2003. ,
Performance avec un régénérateur optique insensible à la polarisation composé d'un interféromètre et de SOA, 2004. ,
Régénération tout optique à base de fibre optique non linéaire', -RXUQpHV1DWLRQDOHVGHO ¶2SWLTXH*XLGpH-12*, 2005. ,
Compression d' impulsions par mélange à quatre ondes dans les amplificateurs à semiconducteurs, 2002. ,
Experimental measurement of 10 Gbit/s system power penalty spectrum created by Group Delay Ripple of Fiber Bragg Grating Chromatic Dispersion Compensator, XURSHDQ&RQIHUHQFHRQ2SWLFDO &RPPXQLFDWLRQ, ECOC, We.2.5.2, 2002. ,
URL : https://hal.archives-ouvertes.fr/hal-00148954
High speed, high switching contrast quantum well saturable absorber for 160 Gbit/s operation' &RQIHUHQFHRQ, 2005. ,
Effects of assist light injection at gain transparency wavelength on transmission and performances of SOAs, CLEO/Europe. 2005 Conference on Lasers and Electro-Optics Europe, 2005. ,
DOI : 10.1109/CLEOE.2005.1568338
URL : https://hal.archives-ouvertes.fr/hal-00079086
Mesures Expérimentales à 10Gbit/s du spectre des pénalités engendrées par les oscillations sur le retard de groupe d' un compensateur de dispersion chromatique, pp.87-89, 2003. ,
Techniques de régénération tout optique 2R et 3R, &ROORTXHGHO ¶$FWLRQ6SpFLILTXH n°36 du département STIC du CNRS « Communications Numériques Optiques et Systèmes " Tout Optique " » (COSTO), 2003. ,
Analytical model for the Erbium-Ytterbium co-doped silicate fiber amplifier, pp.41-51, 2002. ,
4-channel saturable absorber module for high bit-rate regenerated WDM transmission, 2002. ,
Optical 2R regenerator based on passive saturable absorber for 40???Gbit???s WDM long-haul transmissions, Electronics Letters, vol.38, issue.19, pp.1113-1114 ,
DOI : 10.1049/el:20020715
Low switching energy saturable absorber device for 40 Gbit/s networks' , Integrated Photonics Research, 2004. ,
DOI : 10.1364/ipr.2004.ifd2
Ultrafast saturable absorption at 1.55 ??m in heavy-ion-irradiated quantum-well vertical cavity, Applied Physics Letters, vol.76, issue.11, p.1371, 2000. ,
DOI : 10.1063/1.126035
All-optical multiwavelength clock recovery using integrated semiconductor amplifier array module, Electronics Letters, vol.37, issue.4, 2001. ,
DOI : 10.1049/el:20010181
Optical regeneration at 40 Gbit/s and betond, pp.2779-90, 2003. ,
40 Gbit/s transmission over 80 000 km dispersion shifted fibre using compact opto-electronic-3R regeneration´SURFregeneration´SURF(XURS&RQI2SWLFDO&RPP, 2003. ,
SLALOM: semiconductor laser amplifier in a loop mirror, Journal of Lightwave Technology, vol.13, issue.10, pp.2099-2112, 1995. ,
DOI : 10.1109/50.469721
TWO-STAGE WAVELENGTH CONVERTER WITH IMPROVED EXTINCTION RATIO, Optical Fiber Communications Conference, pp.15-17, 1995. ,
DOI : 10.1364/OFC.1995.PD15
Experimental demonstration of simple NOLM-based 2R regenerator for 42.66 Gbit/s WDM long-haul transmissions, 3URF 2SW )LEHU &RPP, WN4, 2004. ,
All-optical regeneration techniques, pp.11-12, 2003. ,
URL : https://hal.archives-ouvertes.fr/hal-00148321
Noise accumulation and BER estimates in concatenated nonlinear optoelectronic repeaters, IEEE Photonics Technology Letters, vol.9, issue.7, p.1011, 1997. ,
DOI : 10.1109/68.593383
Margin measurements in optical amplifier system, IEEE Photonics Technology Letters, vol.5, issue.3, 1993. ,
DOI : 10.1109/68.205619
? Experimental demonstration of a fiber-based optical 2R regenerator in front of an 80Gb/s receiver?, p.194, 2003. ,
?Highly nonlinear holey optical fibres : design, manufacture and device applications?, p.1, 2002. ,
Chalcogenide glasses with high non linear optical properties for telecommunications, Journal of Physics and Chemistry of Solids, vol.62, issue.8, pp.1435-1440, 2001. ,
DOI : 10.1016/S0022-3697(01)00059-2
Nonlinear Optical Properties of Chalcogenide Glass Fibers and Their Application to All-Optical Switching, Optical Fiber Technology, vol.3, issue.2, p.142, 1997. ,
DOI : 10.1006/ofte.1997.0214
?24 channels * 10GHz spectrally sliced pulse source based on spectral broadening in a highly nonlinear Holey Fiber?, p.687, 2003. ,
Optical Fiber Communication, ThP3. [17] STUBKJAER (K.) Millenium issue. [18] TAJIMA n° 1222] PIEPER (W.) et al., Optical Fiber Communication (OFC'96), pp.0-1874, 1993. ,