The 17th International Conference on X-Ray and Inner-Shell Processes 1997
DOI: 10.1063/1.52236
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Transition radiation in the x-ray region from a low emittance 855 MeV electron beam

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“…It was suggested more than fifteen years ago by Moran et al [28] that the interfoil coherence of TR, generated by relativistic electrons, constitutes a new technique for the measurement of the refractive index decrement δ(ω) in the X-ray region. A number of experiments were performed in the soft and hard X-ray region in which more or less clear interference structures were observed [28,29,30,31,32,1]. However, that δ(ω) really can be measured by such a technique has been demonstrated first by the X-ray interferometer described in this work.…”
Section: The Hard X-ray Interferometermentioning
confidence: 92%
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“…It was suggested more than fifteen years ago by Moran et al [28] that the interfoil coherence of TR, generated by relativistic electrons, constitutes a new technique for the measurement of the refractive index decrement δ(ω) in the X-ray region. A number of experiments were performed in the soft and hard X-ray region in which more or less clear interference structures were observed [28,29,30,31,32,1]. However, that δ(ω) really can be measured by such a technique has been demonstrated first by the X-ray interferometer described in this work.…”
Section: The Hard X-ray Interferometermentioning
confidence: 92%
“…Brilliance means that a large number of photons from a small source spot size down to the µm range are emitted with high directionality in space. In particular, the hard TR X-ray beam turned out to be comparable in photon flux and brilliance with second-generation synchrotron radiation sources [1]. Taking advantage of this fact a novel K-edge imaging system [2] was developed.…”
Section: Introductionmentioning
confidence: 99%