Cuminal, Y.1, Christol, P.2, Rodriguez, J.B2, Joullié, A.2
1 Laboratoire des Sciences des Matériaux et d’Automatique (LASMEA), Université Clermont II, UMR CNRS 6602, Aubiére, France
2 Centre d’Electronique et de Micro-optoélectronique de Montpellier (CEM2), Université de Montpellier-II, UMR CNRS 5507, Montpellier, France
Infrared photonic detectors operating in the mid infrared region find applications in pollution monitoring, high-speed infrared imaging systems and free space telecommunications. There is a need for new uncooled high performance detector systems and antimonide-based (Sb-based) semiconductor quantum structures could be an alternative of the well-established technologies. The main objective of ...
Witz, G., Revaz, B., Flükiger, R.
Université de Genève, Gap-Supra 20, Genève, Suisse
The parameters describing the heat transfer between the plasma channel and the workpiece during the electron discharge machining (EDM) process are still poorly understood. Models describing this phenomenon have many lacunas and can not be used for relevant predictions. Using high resolution local temperature measurements and inverse calculations made with FEMLAB and MATLAB, we successfully ...
CEA Grenoble Leti
We use the MOS transistor model from COMSOL as a template to do our own model of double gate MOSFET. At the present time, it seems that double gate devices- going to non-planar transistor architectures- could be a solution for sub-32nm nodes. In addition, new design flexibility is allowed when gates are not interconnected. However, appropriate models must be developed. In our investigation, we ...
Zampolli, M., Tesei, A., Jensen, F.B.
NATO Undersea Research Centre, 19138 La Spezia, Italy
Acoustic waves are used in SONAR systems for the detection and classification of objects which may be swimming in the water column, proud on the seafloor, or buried below the sediment. In some applications, such as low frequency detection and classification of structurally complex objects immersed in a fluid, signal processing techniques must be aided by a-priori model based knowledge of the ...
MEDRAD Innovations, One MEDRAD Drive, Indianola
This talk will highlight, through several case studies, COMSOL Multiphysics' utility as a design tool, system analysis tool, and an aid in applied research throughout MEDRAD's product development cycle (the integrated-Product Development Process™), from applied research to product validation. Specific examples shall include the analysis of a shielding design to prevent spurious interference ...
Finite-element Analysis of Properties in Real and Idealized Photonic Crystal Fibres, Application to Supercontinuum Generation
Gérôme, F., Viale, P., Tombelaine, V., Leproux, P., Auguste, J.L., Février, S., Blondy, J.M., Couderc, V.
IRCOM, CNRS UMR 6615, Limoges, France
Using a full-vector finite-element method, we calculate modal properties in index-guiding photonic crystal fibres. The influence of the deformation of the geometry in actual fibre structures is evaluated and compared to the idealized-model. These results are applied to the supercontinuum generation. Moreover, development of MATLAB softwares for FEMLAB 3.1 are presented.
Optimisation of the Electrochemical Instrumentation of a Wear Simulator through Finite Element Modelling
Déforge, D.1, 2, Ponthiaux, P.2, Wenger, F.2, Lina, A.1, Ambard, A.1
1 Electricité de France (EDF) R&D, Chemistry and corrosion group, Les Renardières, Moret sur Loing cedex, France
2 Laboratory LGPM, Ecole Centrale Paris, Chatenay-Malabry cedex, France
Stainless steels are often used in nuclear power plants due to their good corrosion resistance. This good behaviour is due to an oxide film which forms on their surface and insulates them from the corrosive media. Sometimes, flow-induced vibrations can however lead to some contacts between the components, and thus to the degradation of this oxide film. The mechanical removal leads to an increase ...
Bazan, C.1, Blomgren, P.2
1 Computational Science Research Center, San Diego State University
2 Department of Mathematics & Statistics, San Diego State University
An adaptive finite element strategy is employed to solve the Perona-Malik model as modified by Catté, Lions, Morel and Coll for image processing by (often highly) nonlinear diffusion. FEMLAB® and MATLAB® are used to implement the experiments and they prove to be very suitable tools to run this type of problem. Refinement and coarsening of the grids are used as needed and the approach leads to ...
Department of Mathematics, Bologna University, Bologna, Italy
PDE-based methods apply in a large variety of image processing and computer vision areas such as denoising, smoothing, segmentation and restoration. Aim of this work is to apply the primitives provided by FEMLAB to some well known PDE-based models used in image processing. This application can be utilized by students, approaching PDE-models in image processing, as well as by researchers who can ...
Mattarolo, G., Bard, J.
ISET, Institut für Solare Energieversorgungstechnik, Kassel
Thermophotovoltaic (TPV) is an emerging technology based on the direct conversion of thermal radiation coming from a heat source into electricity by using photovoltaic (PV) cells. The first target for the TPV research is to break the threshold of 10% of efficiency, which would allow to start the commercialization of such technology in different applications. Defining and simulating a ...