A high-power Ka-band Free-Electron Maser, defined by a 2D – 1D Bragg lasing cavity

Author

MacInnes, Philip ; Konoplev, Ivan V. ; Cross, Adrian W. ; He, Wenlong ; Yin, Helen ; Whyte, Colin G. ; Robertson, Craig W. ; Ronald, Kevin ; Phelps, Alan D R

Author_Institution

SUPA Dept. of Phys., Univ. of Strathclyde, Glasgow, UK

fYear

2012

fDate

8-13 July 2012

Abstract

One of the on-going research programs, at the University of Strathclyde, involves the development of high-power, pulsed, Free-Electron Masers (FEMs) with the lasing cavity defined using periodic corrugations on the drift-tube walls^1-4. These corrugations form 1D and 2D Bragg resonators, whose reflection bands determine the dominant resonance of the maser⁵. Proper selection of the FEM undulator magnetic field strength, allows for efficient extraction of energy from a mildly relativistic (400 - 500 keV) electron beam at the resonant frequency of the lasing cavity, leading to monochromatic output at power levels of several tens of megawatts and pulse durations of ~150ns (determined primarily by the pulse duration of the driving power supply of ~250ns).

Keywords

electron beams; free electron lasers; magnetic fields; masers; 2D-1D Bragg lasing cavity; Bragg resonators; FEM undulator magnetic field strength; electron beam; high-power Ka-band free-electron maser; megawatts; monochromatic output; on-going research programs; periodic corrugations; pulse durations; reflection bands; Cavity resonators; Educational institutions; Finite element methods; Lasers; Masers; Physics; Undulators;

fLanguage

English

Publisher

ieee

Conference_Titel

Plasma Science (ICOPS), 2012 Abstracts IEEE International Conference on

Conference_Location

Edinburgh

ISSN

0730-9244

Print_ISBN

978-1-4577-2127-4

Electronic_ISBN

0730-9244

Type

conf

DOI

10.1109/PLASMA.2012.6383617

Filename

6383617