A finite element analysis of room temperature silicon crystals for the Advanced Photon Source bending-magnet and insertion-device beams | Zendy

Lahsen Assoufid | Zendy; W.K. Lee | Zendy; Dennis M. Mills | Zendy

Open Access

A finite element analysis of room temperature silicon crystals for the Advanced Photon Source bending-magnet and insertion-device beams

Author(s) -

Lahsen Assoufid,

W.K. Lee,

Dennis M. Mills

Publication year - 1994

Language(s) - English

Resource type - Reports

DOI - 10.2172/10105457

Subject(s) - undulator , wiggler , monochromator , advanced photon source , silicon , optics , magnet , materials science , synchrotron radiation , finite element method , beam (structure) , photon , radiation , optoelectronics , physics , particle accelerator , nuclear physics , thermodynamics , wavelength , quantum mechanics , cathode ray , electron

In this paper, we give the results of a series of thermal and distortion finite element analyses performed on room temperature silicon for the three standard APS sources, namely, the bending magnet, Wiggler A, and Undulator A. The modeling was performed with the silicon cooled directly with water or liquid gallium through rectangular channels

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