We present the recent developments of a study aimed at measuring the transverse beam profile using the Heterodyne Near Field Speckles (HNFS) method. The HNFS technique works by illuminating a suspension of Brownian nanoparticles with synchrotron radiation and studying the resulting interference pattern. The transverse coherence of the source, and therefore, under the conditions of validity of the Van Cittert and Zernike theorem, the transverse electron beam size is retrieved from the interference between the transmitted beam and the spherical waves scattered by each nanoparticle. We here describe the fundamentals of this technique, as well as the recent experimental results obtained with 12 keV undulator radiation at the NCD beamline at the ALBA synchrotron. The applicability of such a technique for future accelerators (e.g. CLIC or FCC) is also discussed.
Progress on transverse beam profile measurement using the heterodyne near field speckles method at Alba / S. Mazzoni, F. Roncarolo, G. Trad, B. Paroli, M. Potenza, M. Siano, U. Iriso, C.S. Kamma-Lorger, A.A. Nosych - In: Proceedings of the 7th International Beam Instrumentation Conference / [a cura di] Y. Leng, V. RW Schaa, X. Han, Z. Zhao. - [s.l] : JACoW, 2019. - ISBN 9783954502011. - pp. 538-541 (( Intervento presentato al 7. convegno International Beam Instrumentation Conference tenutosi a Shanghai nel 2018 [10.18429/JACoW-IBIC2018-thoa03].
Progress on transverse beam profile measurement using the heterodyne near field speckles method at Alba
B. Paroli;M. Potenza;M. Siano;
2019
Abstract
We present the recent developments of a study aimed at measuring the transverse beam profile using the Heterodyne Near Field Speckles (HNFS) method. The HNFS technique works by illuminating a suspension of Brownian nanoparticles with synchrotron radiation and studying the resulting interference pattern. The transverse coherence of the source, and therefore, under the conditions of validity of the Van Cittert and Zernike theorem, the transverse electron beam size is retrieved from the interference between the transmitted beam and the spherical waves scattered by each nanoparticle. We here describe the fundamentals of this technique, as well as the recent experimental results obtained with 12 keV undulator radiation at the NCD beamline at the ALBA synchrotron. The applicability of such a technique for future accelerators (e.g. CLIC or FCC) is also discussed.
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