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A small source, based on a hollow cathode vacuum discharge, produces nanosecond X-ray pulses, with a stored electrical energy less than 1 Joule. Previous measurements have shown that the emitting region is of small size (< 50 μm) and very reproducible in position (δ1 < 50 μm). This type of discharge creates a powerful beam of electrons coming from the hollow cathode plasma. Two different and successive emission mechanisms exist: a beam-target one from trigger plasma and a beam-plasma interaction during the breakdown phase. The spatial distribution is imaged using a highly sensitive camera.
M. Skowronek,P. P. Rcmeas,J. Larour,J-M. Andre, andC. Bonnelle
"Spectroscopic Study Of X-Rays Emitted By Electron Beam-Plasma Interaction", Proc. SPIE 1140, X-Ray Instrumentation in Medicine and Biology, Plasma Physics, Astrophysics, and Synchrotron Radiation, (27 November 1989); https://doi.org/10.1117/12.961850
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M. Skowronek, P. P. Rcmeas, J. Larour, J-M. Andre, C. Bonnelle, "Spectroscopic Study Of X-Rays Emitted By Electron Beam-Plasma Interaction," Proc. SPIE 1140, X-Ray Instrumentation in Medicine and Biology, Plasma Physics, Astrophysics, and Synchrotron Radiation, (27 November 1989); https://doi.org/10.1117/12.961850