Simulation of the development and interaction of instabilities in a relativistic electron beam under variation of the beam wall thickness


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Abstract

The development and interaction of Bursian and diocotron instabilities in an annular relativistic electron beam propagating in a cylindrical drift chamber are investigated analytically and numerically as functions of the beam wall thickness and the magnitude of the external uniform magnetic field. It is found that the interaction of instabilities results in the formation of a virtual cathode with a complicated rotating helical structure and several reflection regions (electron bunches) in the azimuthal direction. It is shown that the number of electron bunches in the azimuthal direction increases with decreasing beam wall thickness and depends in a complicated manner on the magnitude of the external magnetic field.

About the authors

A. A. Badarin

Saratov State University; Yuri Gagarin State Technical University

Email: hramovae@gmail.com
Russian Federation, Saratov, 410012; Saratov, 410054

S. A. Kurkin

Saratov State University; Yuri Gagarin State Technical University

Email: hramovae@gmail.com
Russian Federation, Saratov, 410012; Saratov, 410054

A. A. Koronovskii

Yuri Gagarin State Technical University

Email: hramovae@gmail.com
Russian Federation, Saratov, 410054

A. O. Rak

Belorussian State University of Informatics and Radioelectronics

Email: hramovae@gmail.com
Belarus, Minsk, 220013

A. E. Hramov

Saratov State University; Yuri Gagarin State Technical University

Author for correspondence.
Email: hramovae@gmail.com
Russian Federation, Saratov, 410012; Saratov, 410054

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