CORNET, P.; DUSSÉAUX, Richard; CHANDEZON, J.

doi:10.1109/22.775427

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CORNET, P.
Laboratoire des sciences et matériaux pour l'électronique et d'automatique [LASMEA]

DUSSÉAUX, Richard
Centre d'étude des environnements terrestre et planétaires [CETP]

CHANDEZON, J.

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IEEE Transactions on Microwave Theory and Techniques. 1999, vol. 47, n° 7, p. 965 - 972

Institute of Electrical and Electronics Engineers

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We present a rigorous differential method describing the propagation of an electromagnetic wave in an elementary mitred bent waveguide (H- and E-planes). Maxwell's equations are used in tensorial form, written in a nonorthogonal coordinate system where the boundary surfaces coincide with coordinate surfaces. Therefore, the expression of boundary conditions on the perfectly conducting walls becomes simplified. The electric and magnetic fields are expanded on trigonometric series, which satisfy the boundary conditions. For this problem, the interesting results are the magnitude and phase of the reflected and transmitted modes (transverse-electric modes for H-plane bend, longitudinal-section electric modes for E-plane bend). The transition conditions between the bent waveguide and access waveguides enable us to determine the scattering matrix of this structure. The knowledge of the scattering matrix enables us to simulate any uniform bent waveguides, even those with radii of curvature equal to zero.< Réduire

Mots clés en anglais

Waveguide transitions

Boundary conditions

Rectangular waveguides

Electromagnetic waveguides

Electromagnetic scattering

Transmission line matrix methods

Electromagnetic propagation

Maxwell equations

Computational modeling

Artificial satellites

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Wave propagation in curved waveguides of rectangular cross section

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