Publications

The purpose of this study is to present three-dimensional simulations using finite element method (FEM) of thermomechanical stresses and strains in 1550 nm Laser modules induced by Nd:YAG crystal L

This article briefly describes two recently developed soft-lithographic techniques that can be used to fabricate complex, well-defined three-dimensional (3D) nanostructures.

Since its conception in the late forties1 and its implementation in the fifties,2,3 thousands of pyramidal horn-reflector antennas have been installed in terrestrial radio systems.

One-dimensional transistors are well-understood today; computer techniques for detailed large-signal and small-signal analyses are available.

Superhydrophobic surfaces exhibit a range of properties such as large contact angle, low contact angle hysteresis and icephobicity.

In a recent paper [1], Crochet, Geyling and Van Schaftingen have given a survey of their recent work on the numerical simulation of the growth of semiconductor crystals.

We report the formation of a three-dimensionally ordered array of air bubbles of monodisperse pore size in a polymer film through a templating mechanism based on thermocapillary convection.

A new ac plasma display technique is described in which the alternating sustain function is achieved on the back or substrate glass surface and the x-y selected write-addressing uses a transparent

A new ac plasma display technique is described in which the alternating sustain function is achieved on the back or substrate glass surface and the x-y selected write-addressing uses a transparent

A three-stage Clos network, denoted by v{m, ni, n, n2, /"·>), consists of r rectangular (/ii X m) input switches, m rectangular (ri X r2) middle switches and r> rectangular (m X n2) output sw