Volume 94, Number 3, May 2011
|Number of page(s)||5|
|Section||Electromagnetism, Optics, Acoustics, Heat Transfer, Classical Mechanics, and Fluid Dynamics|
|Published online||28 April 2011|
Quantum effects in spontaneous emission by a relativistic, undulating electron beam
SUPA, Department of Physics, University of Strathclyde - Glasgow, G4 0NG, Scotland, UK, EU
Accepted: 22 March 2011
Current models of the effect of spontaneous emission on the electron beam dynamics neglect the discreteness of electron recoil associated with photon emission. We present a novel, one-dimensional model of the effect of spontaneous emission on the electron beam dynamics in an undulator both in the classical regime where discrete electron recoil is negligible, and in the quantum regime where it is significant. It is shown that in the classical regime, continuous decrease of the average electron energy and diffusive growth of the electron energy spread occurs, in agreement with previous classical models. In the quantum regime, it is shown that the evolution of the electron momentum distribution occurs as discrete momentum groups according to a Poisson distribution. The narrow momentum features of the quantum regime may be useful for generation of coherent radiation, which relies on electron beams having sufficiently narrow momentum/energy distributions.
PACS: 41.60.Cr – Free-electron lasers / 52.59.Ye – Plasma devices for generation of coherent radiation
© EPLA, 2011
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