Publications

A complete model for signal and fluorescence amplification in Ti:Er:LiNbO3 waveguides; under 1480 and 980 mn excitation, which includes transitions involving high energy levels, is presented.

A novel metal micro-structured thermal interface material (MMS-TIM) has been developed to address some of the shortcomings of conventional TIMs.

The I/O Automaton paradigm of Lynch and Tuttle models asynchrony through an interleaving parallel composition and generalizes more comon interleaving models based upon message-passing, such as Hoar

We present numerical modelling of the static and dynamic performance of directly reflectivity modulated silicon-III/V hybrid laser.

Next-generation service offerings will be increasingly based upon combining and integrating information from multiple logically and geographically distributed software systems, interconnected by co

We compare the adequacy of two models for realistic video sources, namely the fractional Brownian motion (fBm) and Markov modulated fluid flow (Mmff) models.

By using a new, state-of-the-art measurement technique, the hot-carrier degradation of LDD nMOSFETs is studied.

Dynamic wavelength capability is well known as a technique with the potential to increase the utilization of network resources and has recently been shown to lead to greater energy efficiency [1].

Dynamic wavelength capability is well known as a technique with the potential to increase the utilization of network resources and has recently been shown to lead to greater energy efficiency [1].

Reference architectures such as ETSI's Network Function Virtualisation Reference Architecture has the potential not just to clarify terminology but to confuse it.