作者:
Bex, H.Greuel, K.Prof. Dr.-Ing. Hans Bex (1937)
VDE VDI IEEE is head of the department of High-Frequency Techniques at the Fachhochschule of Aachen Germany. He received his degrees at the Technical University of Aachen Germany in 1965 and 1969. From 1965 to 1980 he was with the Philips Research Laboratories in Aachen as a research scientist where he was engaged in research on lumped element circulators YIG-filters linear and non-linear microstrip circuits for microwave subsystems. Since 1981 he has been a professor for high-frequency techniques at the Fachhoch-schule Aachen Germany teaching electromagnetics and microwaves. His areas of interest include microwave and millimeter wave integrated circuits and devices non-linear analysis techniques device modelling planar transmission line modelling and electromagnetic field theory applied to isotropic and anisotropic materials. (FH Aachen Abteilung fur Theoretische Nachrichtentechnik und Hochstfrequenztechnik. Eupener Str. 70 D-52066 Aachen T + 492 41/60 09 21 08 Fax + 49 241/60 09 21 91) Dipl.-Ing. Karl Greuel (1960)
VDE studied Electrical Engineering at the FH Aachen Germany and got his degree there in 1988. After his study he designed software for industry-furnaces with stored-program controllers at the Otto Junker GmbH. Since 1990 he works at the Datus GmbH for electrical information-systems in software development. (Datus GmbH Abteilung Software-Entwicklung Tempelhofer Str. 4-6 D-52068 Aachen T +49241/1 6802-0 Fax + 492 41/168 02-80)
In this paper inductive melting in a metal sphere is investigated, whereby the temperature dependence of the sample 's most important material parameters is considered. The solid‐liquid interface in the sphere is...
作者:
SCHROEDER, WWOLFF, IDepartment of Electrical Engineering and Sonderforschungsbereich 254
Duisburg University Bismarckstrasse 81 D-4100 Duisburg 1 Germany Werner L. Schroeder was born in Recklinghausen
Germany on July 12 1954. After an apprenticeship as an electrician he collected several years of practical experience in industry before it drew him to study electrical engineering. He obtained his Dipl.-Ing degree from the University of Duisburg Germany in 1986. He then joined the Special Research Program. “Very High Frequency and Very High Speed Circuits based on III-V-Compound Semiconductors” at the Faculty of Electrical Engineering University of Duisburg where he worked on Monte Carlo simulation of electrical transport in III-V compounds and devices numerical modeling of MMIC transmission-line structures and on the explanation of the spurious mode phenomenon in numerical solutions of electromagnetic field eigenvalue problems. He is currently with the Department of Electromagnetic Theory and Engineering working on fullwave boundary integral analysis of general waveguiding structures which is also the subject of his dissertation.
A space domain Boundary Integral Equation (BIE) method for full-wave analysis of general waveguide is presented. The method is demonstrated to be applicable to arbitrary shielded or unshielded waveguide cross-sections...
详细信息
A space domain Boundary Integral Equation (BIE) method for full-wave analysis of general waveguide is presented. The method is demonstrated to be applicable to arbitrary shielded or unshielded waveguide cross-sections ranging from optical waveguide to MMIC transmission lines. It allows for arbitrary isotropic complex media including normal (imperfect) conductors and superconductors as is demonstrated with full-wave loss analysis of coplanar stripline and several thin-film microstrip line configurations employing Au and YBCO conductors. An outline of the theory of the BIE method is given. The implications of nonsmooth boundary curves are considered, and special attention is given to the reliability of the method in being free of spurious solutions.
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