X-ray beam characteristics on MPW6.2 at the SRS

The new multi-pole wiggler station MPW6.2 at the SRS is specifically designed and constructed to perform combined small-angle scattering, polycrystalline diffraction and absorption spectroscopic experiments using synchrotron X-rays. The delivery of a high quality X-ray beam of concentrated flux with...

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Published inNuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Vol. 222; no. 3; pp. 659 - 666
Main Authors Tang, C.C, Martin, C.M, Laundy, D, Thompson, S.P, Diakun, G.P, Cernik, R.J
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2004
Subjects
Sagittally focusing monochromator
Synchrotron instrumentation
X-ray beam characteristics
X-ray optics
Synchrotron instrumentation
41.50.+h
07.85.Qe
Sagittally focusing monochromator
X-ray beam characteristics
X-ray optics
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Abstract The new multi-pole wiggler station MPW6.2 at the SRS is specifically designed and constructed to perform combined small-angle scattering, polycrystalline diffraction and absorption spectroscopic experiments using synchrotron X-rays. The delivery of a high quality X-ray beam of concentrated flux with a low bandpass is essential in order to satisfy the scientific requirements for the study of in situ materials processes and kinetic systems (e.g. crystallisation and/or nucleation). To achieve this, the beamline has the necessary optics to focus both vertically and horizontally, monochromatise and collimate the radiation from a multi-pole magnetic lattice in the SRS. In order to determine the quality of the delivered user beam, measurements have been taken, on the focused beam profile, photon flux, wavelength bandpass (purity), energy and intensity stability. These characteristics have been compared with calculated results.
AbstractList The new multi-pole wiggler station MPW6.2 at the SRS is specifically designed and constructed to perform combined small-angle scattering, polycrystalline diffraction and absorption spectroscopic experiments using synchrotron X-rays. The delivery of a high quality X-ray beam of concentrated flux with a low bandpass is essential in order to satisfy the scientific requirements for the study of in situ materials processes and kinetic systems (e.g. crystallisation and/or nucleation). To achieve this, the beamline has the necessary optics to focus both vertically and horizontally, monochromatise and collimate the radiation from a multi-pole magnetic lattice in the SRS. In order to determine the quality of the delivered user beam, measurements have been taken, on the focused beam profile, photon flux, wavelength bandpass (purity), energy and intensity stability. These characteristics have been compared with calculated results.
Author Thompson, S.P
Diakun, G.P
Laundy, D
Tang, C.C
Cernik, R.J
Martin, C.M
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Keywords Synchrotron instrumentation
41.50.+h
07.85.Qe
Sagittally focusing monochromator
X-ray beam characteristics
X-ray optics
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Synchrotron instrumentation
X-ray beam characteristics
X-ray optics
Title X-ray beam characteristics on MPW6.2 at the SRS
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