Volume Free Electron Laser - Self-Phase-Locking System

V.G. Baryshevsky; A.A Gurinovich

arXiv:1301.4330·physics.acc-ph·January 21, 2013·1 cites

Volume Free Electron Laser - Self-Phase-Locking System

V.G. Baryshevsky, A.A Gurinovich

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TL;DR

This paper demonstrates that the Volume Free Electron Laser (VFEL) functions as a self-phase-locking system, providing equations to describe phase-locking and generation dependence on electron bunch timing in superradiation and long pulse regimes.

Contribution

It introduces a set of equations modeling phase-locking and generation dynamics in VFELs, applicable to relativistic BWO gratings, advancing understanding of their operational mechanisms.

Findings

01

VFEL operates as a self-phase-locking system.

02

Derived equations describe phase-locking and generation dependence.

03

Applicable to relativistic BWO gratings.

Abstract

It is shown that that the Volume free electron laser is a self-phase-locking system. Equations are derived that describe both the phase-locking process and the dependence of generation on the times of bunches' entering into the VFEL resonator in the superradiation regime and for long pulses. The derived equations are applicable to the description of the stated processes in gratings formed by relativistic BWOs.

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Taxonomy

TopicsAstronomy and Astrophysical Research · Advanced X-ray Imaging Techniques · Laser-Matter Interactions and Applications