2018
DOI: 10.1109/tasc.2017.2786270
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Sirius-Details of the New 3.2 T Permanent Magnet Superbend

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Cited by 18 publications
(8 citation statements)
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“…The deformation of the C-shaped yoke at the poles is estimated to be 0.020 mm, following a first calculation made during the design of the Superbend. Note that, for the assembly of the PMs, benefits from experience of the Sirius new Brazilian synchrotron light source were taken (Citadini et al, 2018), especially with regard to the conception of dedicated tools, which was a key point for the success of the project.…”
Section: Mechanical Designmentioning
confidence: 99%
“…The deformation of the C-shaped yoke at the poles is estimated to be 0.020 mm, following a first calculation made during the design of the Superbend. Note that, for the assembly of the PMs, benefits from experience of the Sirius new Brazilian synchrotron light source were taken (Citadini et al, 2018), especially with regard to the conception of dedicated tools, which was a key point for the success of the project.…”
Section: Mechanical Designmentioning
confidence: 99%
“…A Sirius 5BA cell is composed by 5 dipoles, four of which are electromagnetic and have a transversal field gradient, and the central dipole, BC, has a longitudinal field gradient and is based on a room temperature NdFeB permanent magnet. The BC high field peak reaches a maximum magnetic field of 3.2 T, in a minimum gap of 11 mm [2] and will delivery hard X-rays with critical energy of 19.15 keV (Figure 1, left) to the MOGNO beamline. The BC source has a beam size, at its center, of 22.1 x 8.5 µm² (FWHM).…”
Section: The Superbend Sourcementioning
confidence: 99%
“…The primary source is a 3.2 T permanent magnet dipole, with critical energy of 19.15 keV. Using a set of three elliptical mirrors, the beam is demagnified down to a nanometric focal spot size of ~120 x 120 nm 2 , which implies a divergent beam (~3 mrad in both directions). Therefore, MOGNO operates in a cone beam geometry, reaching a maximum field of view (FoV) of 85 x 85 mm 2 .…”
Section: Introductionmentioning
confidence: 99%
“…Today low emittance machines integrate superbends based on permanent magnets e.g. SIRUS [56], which provides a field of ≈ 3.2 T. For SLS-2 4 -6 T superbends are being looked into [57], [58], which are using superconducting coils. Design evaluations were made for superbends based on pole shoes made of Holmium, which are driven by a superconducting coil [59].…”
Section: A Magnet Assemblymentioning
confidence: 99%