Electron Transit-Time and Exit Velocity in Linear Beam Travelling Wave Amplifier for a Dielectric Rod Supported Tape-helix Slow Wave Structure

Author(s): Richards Joe Stanislaus and Gnanamoorthi Naveen Babu
Source: FERMAT, Volume 21, Communications 2, May-Jun., 2017



Abstract: The large signal behavior of linear beam travelling wave amplifier is presented in this paper. The electron transit time and the electron exit velocity in a dielectric supported helix traveling wave tube amplifiers (TWTA) are derived by solving the non-homogeneous boundary value problem. From the Maxwell’s field equations, electron ballistic equation and from the boundary conditions of the tape helix TWT, a Green’s function sequence is obtained for the axial electric field as a function of electron arrival time in the interaction region. By successive approximation technique, the electron transit time and therefore the exit velocity equations were derived and numerically computed.

Keywords: Electron ballistic equation, anisotropically conducting, tape-helix, electron beam, boundary conditions



View PDF

Electron Transit-Time and Exit Velocity in Linear Beam Travelling Wave Amplifier for a Dielectric Rod Supported Tape-helix Slow Wave Structure









© Copyright 2014 FERMAT | All Rights Reserved
"FERMAT is published under the auspices of the University of Central Florida"
ISSN 2470-4202