Publications

We study the properties of local potential energy minima (inherent structures') sampled by liquids at low temperatures as an approach to elucidating the mechanisms of the observed dynamical slowing

The exponential band tail (Urbach tail) problem for structurally disordered material is treated by a simple model in which quantum wells (used to model the effects of local disorder) trap states in

The present study assesses via LTE system level simulations the upper bound of the maximal reachable performance gain of intra LTE load balancing (LB).

The need for ultra-low latencies fronthaul/backhaul solutions for the 5G as well as the need for low energy consumption technologies in a cost-effective way push constructors of equipment to propos

The paper introduces a potential in power consumption savings in a novel modular wireless base station, being the fundamental part of the concept SAfRAN (Scalable Architecture for Resource Adaptabl

Auger electron spectroscopy in conjunction with sputter depth profiling through semiconductor p-n junctions reveals a peak shift of Auger lines due to the built-in potential at the junction.

Photoluminescence and excitation spectra at 6K show that a potential well (GaAs/AlGa sub (1-x) As) of shape U(z) = U sub 0 |z over (Lz/2)| sup (2/3) grown by molecular beam epitaxy has an energy de

Briefly reviews the technical basis, performance, economic gains, and general feasibility of a comprehensive network based on the class of digital transmission established by the introduction of pu

We previously reported a simple 10-Gb/s Mach-Zehnder-interferometer- type tunable dispersion compensator (TDC) that requires only one control voltage.

We previously reported a simple 10-Gb/s Mach-Zehnder-interferometer-type tunable dispersion compensator (TDC) that requires only one control voltage.