Measurement of laser light thomson-scattered from a cooling electron beam |
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Authors: | C. Habfast H. Poth B. Seligmann A. Wolf J. Berger P. Blatt P. Hauck W. Meyer R. Neumann |
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Affiliation: | (1) Institut für Kernphysik, Kernforschungszentrum Karlsruhe, D-7500 Karlsruhe, Fed. Rep. Germany;(2) Physikalisches Institut, Universität, D-6900 Heidelberg, Fed. Rep. Germany;(3) Present address: DESY, D-2000 Hamburg 52, Fed. Rep. Germany |
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Abstract: | First results are presented from an experiment scattering laser light from a relativistic electron beam. The 5 cm diameter continuous electron beam of 28 keV kinetic energy and 2.6 A current presents an electron gas of a density of 8×107 cm–3, from which 20 ns pulses of laser light (490 nm) were scattered at a repetition rate of 15 Hz and an average power of 20 mJ per pulse. The Doppler-shifted wavelength of photons backscattered under 180° was analysed with a Fabry-Perot interferometer. This technique provides, for the first time, a non-destructive measurement of the velocity distribution in an electron beam radially resolved in space. The results presented here comprise the direct measurement of the absolute electron energy and the degree of space-charge compensation in the electron beam. The determination of an upper bound of 10–2 for the ratio of longitudinal to transverse electron temperature implies the first direct measurement of a flattened velocity distribution. |
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Keywords: | 41.80E 52.25 29.15D |
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