Add to ORKGsession We3.P « posters » [We3.P.91], ISBN 2-912328-34-9International audienceWe propose an original study of optical clock recovery characterisation for 3R regeneration. Jitter reduction and corresponding BER measurement are presented at 43 Gb/s using a simple and reliable all optical clock recovery
A 40GHz clock with low jitter is recovered from a 640Gbit/s optical time-division multiplexed (OTDM)...
A study on 3R all-optical signal regeneration was presented. Architecture for 3 R regeneration, re-t...
International audienceWe report on a passive all-optical clock recovery technique based on data sign...
Abstract: We demonstrate a novel 40-Gb/s optical 3R regenerator that utilizes a traveling-wave elect...
International audienceAs channels rates in optical networks are expected to exceed 100Gb/s in the ne...
Scalable all-optical networks need 3R regeneration. Clock recovery is a key function. Bit-rate flexi...
regular session Th1.3 « Subsystems Approaches » [Th1.3.7], ISBN 0-86341-546-6International audienceW...
Abstract—We describe an optical clock recovery circuit that employs a traveling-wave electroabsorpti...
Functional elements and architectures for building up 3R (re-amplification, re-shaping, and re-timin...
In this study, 40 Gb/s optical clock recovery using a three section self-pulsation DFB laser is achi...
On the basis of a novel spectrum conversion phase-locked loop, this article presents a method to rec...
International audienceIn this letter, we demonstrate the bit-error-rate (BER) performance enhancemen...
All-optical signal regeneration have been the active research area since last decade due to evolutio...
All-optical 3R (retiming, reshaping, reamplification) regeneration is expected to become a key enabl...
Optical signal regeneration is required for implementing transparent optical telecommunication netwo...
A 40GHz clock with low jitter is recovered from a 640Gbit/s optical time-division multiplexed (OTDM)...
A study on 3R all-optical signal regeneration was presented. Architecture for 3 R regeneration, re-t...
International audienceWe report on a passive all-optical clock recovery technique based on data sign...
Abstract: We demonstrate a novel 40-Gb/s optical 3R regenerator that utilizes a traveling-wave elect...
International audienceAs channels rates in optical networks are expected to exceed 100Gb/s in the ne...
Scalable all-optical networks need 3R regeneration. Clock recovery is a key function. Bit-rate flexi...
regular session Th1.3 « Subsystems Approaches » [Th1.3.7], ISBN 0-86341-546-6International audienceW...
Abstract—We describe an optical clock recovery circuit that employs a traveling-wave electroabsorpti...
Functional elements and architectures for building up 3R (re-amplification, re-shaping, and re-timin...
In this study, 40 Gb/s optical clock recovery using a three section self-pulsation DFB laser is achi...
On the basis of a novel spectrum conversion phase-locked loop, this article presents a method to rec...
International audienceIn this letter, we demonstrate the bit-error-rate (BER) performance enhancemen...
All-optical signal regeneration have been the active research area since last decade due to evolutio...
All-optical 3R (retiming, reshaping, reamplification) regeneration is expected to become a key enabl...
Optical signal regeneration is required for implementing transparent optical telecommunication netwo...
A 40GHz clock with low jitter is recovered from a 640Gbit/s optical time-division multiplexed (OTDM)...
A study on 3R all-optical signal regeneration was presented. Architecture for 3 R regeneration, re-t...
International audienceWe report on a passive all-optical clock recovery technique based on data sign...