Open AccessHigh-power, high-frequency, annular-beam free-electron maser
Author(s) -
M.V. Fazio,
B.E. Carlsten,
L.M. Earley,
C.M. Fortgang,
W.B. Haynes,
Paul C. Haddock
Publication year - 1998
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/674865
Subject(s) - physics , dispersion relation , beam (structure) , maser , cathode ray , amplifier , particle in cell , optics , phase (matter) , electron , radio frequency , power (physics) , transverse plane , optoelectronics , electrical engineering , nuclear physics , engineering , cmos , quantum mechanics , structural engineering
The authors have developed a 15--17 GHz free electron maser (FEM) capable of producing high power pulses with a phase stability appropriate for linear collider applications. The electron beam source is a 1 {micro}s, 800 kV, 5 kA, 6-cm-dia annular electron beam machine called BANSHEE. The beam interacts with the TM{sub 02} mode Raman FEM amplifier in a corrugated cylindrical waveguide where the beam runs close to the interaction device walls to reduce the power density in the fields. They studied the phase stability by analyzing the dispersion relation for an axial FEL, in which the rf field was transversely wiggled and the electron trajectories were purely longitudinal. Detailed particle-in-cell simulations demonstrated the transverse wiggling of the rf mode and the axial FEL interaction and explicit calculations of the growing root of the dispersion relation are included to verify the phase stability
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