Experimental characterization of X-ray transverse coherence in the presence of beam transport optics

O. Chubar; A. Fluerasu; Y.S. Chu; L. Berman; L. Wiegart; W.-K. Lee; J. Baltser

doi:10.1088/1742-6596/425/5/052028

Experimental characterization of X-ray transverse coherence in the presence of beam transport optics

O. Chubar, A. Fluerasu, Y.S. Chu, L. Berman, L. Wiegart, W.-K. Lee, J. Baltser

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6 Citationer (Scopus)

Abstract

A simple Boron fiber based interference scheme [1] and other similar schemes are currently routinely used for X-ray coherence estimation at 3rd generation synchrotron radiation sources. If such a scheme is applied after a perfect monochromator and without any focusing / transport optics in the optical path, the interpretation of the measured interference pattern is relatively straightforward and can be done in terms of the basic parameters of the source [2]. However, if the interference scheme is used after some focusing optics, e.g. close to the X-ray beam waist, the visibility of fringes can be significantly affected by the new shape of the focused beam phase-space. At the same time, optical element imperfections still have a negative impact on the transverse coherence. In such situations, which are frequently encountered in experiments at beamlines, the quantitative interpretation of a measured interference pattern is not straightforward. Here we show that this can nevertheless be done by using partially-coherent synchrotron radiation wavefront propagation simulations. The results obtained from measurements, performed at the 32-ID undulator beamline of the Advanced Photon Source, and wavefront propagation based simulations show, in particular, that new generation 1D Beryllium Compound Refractive Lenses [3, 4] do not reduce the X-ray transverse coherence in any significant manner.

Originalsprog	Engelsk
Bogserie	Journal of Physics: Conference Series (Online)
Vol/bind	425
Udgave nummer	PART 5
Sider (fra-til)	052028
ISSN	1742-6596
DOI	https://doi.org/10.1088/1742-6596/425/5/052028
Status	Udgivet - 1 jan. 2013

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abstract = "A simple Boron fiber based interference scheme [1] and other similar schemes are currently routinely used for X-ray coherence estimation at 3rd generation synchrotron radiation sources. If such a scheme is applied after a perfect monochromator and without any focusing / transport optics in the optical path, the interpretation of the measured interference pattern is relatively straightforward and can be done in terms of the basic parameters of the source [2]. However, if the interference scheme is used after some focusing optics, e.g. close to the X-ray beam waist, the visibility of fringes can be significantly affected by the new shape of the focused beam phase-space. At the same time, optical element imperfections still have a negative impact on the transverse coherence. In such situations, which are frequently encountered in experiments at beamlines, the quantitative interpretation of a measured interference pattern is not straightforward. Here we show that this can nevertheless be done by using partially-coherent synchrotron radiation wavefront propagation simulations. The results obtained from measurements, performed at the 32-ID undulator beamline of the Advanced Photon Source, and wavefront propagation based simulations show, in particular, that new generation 1D Beryllium Compound Refractive Lenses [3, 4] do not reduce the X-ray transverse coherence in any significant manner.",

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Experimental characterization of X-ray transverse coherence in the presence of beam transport optics

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