Implementation of an 80 Gbit/s full ETDM multi-format ASK optical transmitter

Lee, W.S.; Filsinger, V.; Klapproth, L.; Bach, H.-G.; Beling, Andreas

doi:10.1049/cp:20050526

Cited by 4 publications

(5 citation statements)

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“…Based on this concept, high a) Data generation b) Error detection Figure 1 100 Gbps data generation and error analysis based on extension of existing technologies quality data generation, and bit error measurement in excess of 80 Gbps has been shown to be possible. Basic system performance evaluation [9][10][11] has been successfully demonstrated using this approach.…”

Section: Serial 100 Gbps Data Generation and Error Analysismentioning

confidence: 99%

Challenges in Test and Measurement for 100GE serial TDM system studies

Lee¹,

Filsinger²,

Klapproth³

2007

2007 Digest of the IEEE/LEOS Summer Topical Meetings

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Section: Serial 100 Gbps Data Generation and Error Analysismentioning

confidence: 99%

Challenges in Test and Measurement for 100GE serial TDM system studies

Lee¹,

Filsinger²,

Klapproth³

2007

2007 Digest of the IEEE/LEOS Summer Topical Meetings

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“…These improvements are already yielding benefits in upgrading the performance of forthcoming 40G systems, and contributing towards the demonstration of optical systems operating at 80G and beyond [13][14][15][16]. With a commercially available low V21 push-pull Lithium Niobate modulator, 100 GBit/s operation in the bandwidth-limited duobinary transmission format [17] has also been successfully demonstrated.…”

Section: Key Technologiesmentioning

confidence: 99%

80+ GBit/s ETDM systems implementation: an overview of current technologies

Lee¹

2006

2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference

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“…The goal of developing future terabit all-optical communication systems may be achieved by a reduction in channel spacing of wavelengthdivision multiplexed (WDM) systems [1] or an increase in the per-channel data rate. The latter one could be achieved by exploiting electrical time division multiplexing (ETDM) as in WDM/ETDM [2] systems or optical time-division multiplexing (OTDM) [3] as in hybrid WDM/OTDM systems [4].…”

Section: Introductionmentioning

confidence: 99%

Optimized pulse source employing an externally injected gain-switched laser diode in conjunction with a nonlinearly chirped grating

Anandarajah

Guignard

Clarke

et al. 2006

IEEE J. Select. Topics Quantum Electron.

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Abstract-In this paper, we demonstrate the generation of transform-limited short optical pulses, which display excellent spectral and temporal qualities by employing a novel technology, based on an externally injected gain-switched laser in conjunction with a nonlinearly chirped grating. Using this technique, 3.5-ps optical pulses exhibiting a time-bandwidth product (TBP) of 0.45 are generated, which are suitable for use in high-speed 80 Gb/s optical time-division multiplexing (OTDM) communications systems. The numerical integration of a set of rate equations using suitable parameters for the devices used in the experiments were carried out to further confirm the feasibility of the proposed method for developing an optimized pulse source for high-speed photonic systems.

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Implementation of an 80 Gbit/s full ETDM multi-format ASK optical transmitter

Cited by 4 publications

References 0 publications

Challenges in Test and Measurement for 100GE serial TDM system studies

Challenges in Test and Measurement for 100GE serial TDM system studies

80+ GBit/s ETDM systems implementation: an overview of current technologies

Optimized pulse source employing an externally injected gain-switched laser diode in conjunction with a nonlinearly chirped grating

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