Authors
Abstract
The fundamentals of free electron laser (FEL) theory are now well–established
and can provide a sophisticated description of experiments over a wide range
of parameters. While new technology is being developed for systems working
from 1mm to 10nm wavelengths, the theory remains the same. In this work,
the final consequences of Lorentzian energy distribution in FEL amplifier will
be found by solving of Integro-differential equation using symbolic toolbox
services in MATLAB software v. 6.5 and the relation between several
parameters will be delimited and plotted in order to extract and present the
complex relations between the FEL parameters.
Keywords
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