Publications

Reported is the first demonstration of the performance and properties of a singlemode Fabry-Perot laser processed from InAs/InP(311)B quantum dot material, which gives emission at 1.516 mu m under

1550 nm AlGaInAs DFB lasers and PIN receptors were developed for analog transmission up to 20 GHz. Over 20 GHz bandwidth are measured for both laser and detector.

This work reports the optimization of the design 1.55μm QDashes directly modulated lasers.

High speed transmissions up to 20Gb/s are reported using 1.55µm InP-based Quantum Dashes distributed feedback lasers.

High speed transmissions up to 20Gb/s are reported using 1.55µm InP-based Quantum Dashes distributed feedback lasers.

Selective area growth (SAG) technology has been added to an established InP monolithic integration platform to fabricate arrays of multi-wavelength distributed feedback (DFB) lasers.

: We report the transmission of 155 channels with 100Gbit/s PDM-QPSK modulation over 7200km of pure silica core fibre, exploiting hybrid Raman-EDFA amplification and digital coherent detection.

We present a transmission over C-band and L-band of single carrier 200 Gb/s PDM-8QAM signals with 50GHz spacing, resulting in 4 b/s/Hz spectral efficiency.

The emphasis of this talk will be on the benefits provided in the application of 16/32 Bit Microprocessors.

We describe the design and performance of two-channel and four- channel optical time-division multiplexed fiber transmission systems operating at aggregate bit rates of 8 Gb/s and 16 Gb/s, respecti