ε-PERIODIC STRUCTURES CONTAINING HIGHLY CONDUCTIVE THIN LAYERS

eddy urrent problem with some appropriate asymptoti models using eetive transmission onditions.. representing the

CFPM1 potentially has an advantage over other numerical solutions due to the differentiated pipe-matrix exchange and the ability to consider turbulent flow conditions with

Based on the environmental tests depicted in Fig. 1 and on the presented results of the crystallographic analyses, it can be stated that the b-ZnO films prepared under the

Section 2 presents the model with a formu- lation in terms of the electric field and a formal derivation of equivalent conditions based on an asymptotic expansion in the

Consider an assemblage of nearly cylindrical domains of radius a in a ferrocolloid layer of thickness 21 between parallel plates, The ferrocolloid is subject to an external

Finally, we demonstrate the use of highly conductive nominally undoped ZnO layers within the n-type window of solar cells based on Cu(InGa)Se 2 , CuInSe 2 and Cu 2 ZnSnSe 4

the grain boundary resistance can be calculated from the basic electronic properties of the material.. LE JOURNAL DE PHYSIQUE TOME 25, JANVIER-FEyRIER

Dans cette procédure, toutes les réflexions pouvant apparaître dans le domaine angulaire étudié sont d'abords générées à partir des paramètres de maille approchés et