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This book presents and develops the mathematical tools required to effectively examine and analyse propagation processes of waves of various natures using the cross section method, in artificial and non-artificial waveguides. These techniques are used in the solution of practical situations in various fields, such as plasma heating in nuclear fusion, materials processing and radar and satellite communication systems.
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B.Z. Katsenelenbaum is Chief Scientist at the Institute of Radio Engineering and Electronics of the Russian Academy of Sciences.
L. Mercader del Rio (1923-1998) was Emiritus Professor at the Public university of Navarra, Spain.
M. Pereyaslavets is with the Department of Electrical Engineering at Tel-Aviv University, Israel.
M. Sorolla Ayza is a professor at the Public University of Navarra, Spain.
M. Thumm is a professor at the University of Karlsruhe, Germany.
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Book Description Institution of Engineering and Technology, United Kingdom, 1999. Hardback. Condition: New. Language: English . This book usually ship within 10-15 business days and we will endeavor to dispatch orders quicker than this where possible. Brand New Book. The cross-section method is an analytical tool used in the design of components required for low-loss, highly efficient transmission of electromagnetic waves in nonuniform waveguides. When the waveguide dimensions are large compared with the wavelength, a fully three-dimensional analysis employing modern numerical methods based on finite element, finite difference, finite integration or transmission line matrix formalisms is practically impossible and the cross-section method is the only feasible analysis technique. The method is not limited to oversized tubular metallic waveguides, but is employed intensively in areas such as fibre optic communications, antenna synthesis, natural waveguides (submarine, tropospheric and seismic), microwave radio links (Earth or space) and the design of absorbing surfaces and it may also be applied to many acoustic problems. The application of the method in special cases such as cut-off and resonant frequencies is covered, as well as the design of oversized waveguide components such as tapers, bends, polarisers and mode converters. Many useful formulas are given for the practical layout of such transmission line components. The use of computers in the application of the method and problems related to numerical analysis are also covered. Seller Inventory # BTE9780852969182
Book Description The Institution of Engineering and Technology, 1999. Hardcover. Condition: New. Seller Inventory # DADAX085296918X
Book Description Stylus Pub Llc, 1999. HRD. Condition: New. New Book. Shipped from US within 10 to 14 business days. Established seller since 2000. Seller Inventory # T8-9780852969182
Book Description The Institution of Engineering, 1998. Hardcover. Condition: New. Never used!. Seller Inventory # P11085296918X
Book Description The Institution of Engineering and Technology, 1998. Hardcover. Condition: New. book. Seller Inventory # M085296918X
Book Description 1997. Hardcover. Condition: New. Hardcover. The investigation of wave propagation in long transmission lines is common to many engineering situations. This book presents and develops the mathematical tools required to e.Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability. 256 pages. Seller Inventory # 9780852969182