Design of a High-Throughput Biological Crystallography Beamline for Superconducting Wiggler.

Autor: Tseng, P. C., Chang, C. H., Fung, H. S., Ma, C. I., Huang, L. J., Jean, Y. C., Song, Y. F., Huang, Y. S., Tsang, K. L., Chen, C. T., Warwick, T.
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Zdroj: AIP Conference Proceedings; 2004, Vol. 705 Issue 1, p408-411, 4p
Abstrakt: We are constructing a high-throughput biological crystallography beamline BL13B, which utilizes the radiation generated from a 3.2 Tesla, 32-pole superconducting multipole wiggler, for multi-wavelength anomalous diffraction (MAD), single-wavelength anomalous diffraction (SAD), and other related experiments. This beamline is a standard double crystal monochromator (DCM) x-ray beamline equipped with a collimating mirror (CM) and a focusing mirror (FM). Both the CM and FM are one meter long and made of Si substrate, and the CM is side-cooled by water. Based on detailed thermal analysis, liquid nitrogen (LN2) cooling for both crystals of the DCM has been adopted to optimize the energy resolution and photon beam throughput. This beamline will deliver, through a 100 μm diameter pinhole, photon flux of greater than 1011 photons/sec in the energy range from 6.5 keV to 19 keV, which is comparable to existing protein crystallography beamlines from bending magnet source at high energy storage rings. © 2004 American Institute of Physics [ABSTRACT FROM AUTHOR]
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