On the theory of a circular waveguide with anisotropic impedance surface for gyro-devices: beam-wave interaction

Shcherbinin, Vitalii I.; Schünemann, Klaus

On the theory of a circular waveguide with anisotropic impedance surface for gyro-devices: beam-wave interaction

Publikationstyp

Conference Paper

Date Issued

2015-11-20

Sprache

English

Author(s)

Shcherbinin, Vitalii I.

Schünemann, Klaus

Institut

Hochfrequenztechnik E-3

TORE-URI

http://hdl.handle.net/11420/7849

Start Page

1

End Page

2

Article Number

7333199

Citation

YSF 2015 - International Young Scientists Forum on Applied Physics: 7333199, 1-2 (2015-11-20)

Contribution to Conference

YSF 2015 - International Young Scientists Forum on Applied Physics

Publisher DOI

10.1109/YSF.2015.7333199

Scopus ID

2-s2.0-84962574749

Publisher

IEEE

In [1], the 'cold' (beam-absent) theory of a finite-length circular waveguide with anisotropic surface impedance was presented. The purpose of the present paper is to derive the self-consistent system of equations describing stationary regime of the beam-wave interaction in the gyro-device with an interaction structure in the form of such waveguide. Similar equations valid for a perfectly conducting waveguide are well-known [2-5] and in active use.

DDC Class

600: Technik

Options

On the theory of a circular waveguide with anisotropic impedance surface for gyro-devices: beam-wave interaction