Publications

This Letter reports the design, fabrication and characterisation of a new differential linear driver, fabricated in the III-V Lab 0.7-${rm mu }{rm m}$?m emitter width indium phosphide (InP) double

Short reach communication systems, such as datacenters and access networks, exhibit steep capacity growth and require opto-electronic technologies with small size, low complexity and low power cons

Demultiplexing photoreceivers, composed of either pin or pinTWA packaged frontends and subsequent packaged InP-HBT-based demultiplexers are reported for 107 Gbit/s operation, paving the way to ultr

Using optical duobinary modulation, we demonstrate the first electrical time-division multiplexed (ETDM) optical transmitter at 107 Gb/s, suitable for serial transport of 100G Ethernet.

We demonstrate 107-Gb/s optical packet switching using electronically multiplexed duobinary signals, fast tunable lasers, and a 40×40 arrayed waveguide grating router.

We demonstrate 107-Gb/s single-channel transmission over the commercial all-Raman LambdaXtreme(R) transport system.

We demonstrate 107-Gb/s single-channel transmission over the commercial all-Raman LambdaXtreme® transport system.

We demonstrate an IM/DD PAM-4 optical transceiver operating at 84 and 100 Gbaud, and achieve successful demodulation after 1 km and 500 m of standard single mode fiber, respectively.

We report the first optical transmitter implementations operating at a serial bit rate of 107 Gbit/s using solely electronic time division multiplexing (ETDM).

We present a 107-Gbit/s receiver using hybrid integration of a photodiode and electronic demultiplexer.