Double-Corrugated Degenerate Band-Edge Oscillator Driven by an Electron Beam

TL;DR

This paper presents a novel degenerate band-edge oscillator driven by an electron beam, utilizing a rectangular waveguide with double corrugation to achieve stable, multi-mode coalescence with potential for various geometries.

Contribution

It introduces a new DBE oscillator design based on a rectangular waveguide with double corrugation, demonstrating mode coalescence and robustness to parameter variations.

Findings

Achieves mode coalescence at the DBE point with flat dispersion.

Oscillator frequency remains stable despite variations in beam current and velocity.

Design is adaptable to different geometries supporting a DBE.

Abstract

The properties of a degenerate band-edge (DBE) oscillator based on the synchronous interaction between a linear electron beam synchronized with four degenerate electromagnetic modes are presented. The DBE in the cold slow-wave structure is implemented in a rectangular waveguide with a staggered double corrugation in it. At the DBE, four modes coalesce into a single degenerate mode, forming a very flat dispersion diagram with vanishing or very small group velocity. The DBE oscillator frequency is robust to variations in electron beam current, electrons' velocity, and cavity length. The DBE oscillator concept provided here is expected to be extendable to several other geometries as long as the slow wave structure supports a DBE.