Status of the crystallography beamlines at Elettra
- 138 Downloads
Elettra is one of the first 3rd-generation storage rings, recently upgraded to routinely operate in top-up mode at both 2.0 and 2.4 GeV. The facility hosts four dedicated beamlines for crystallography, two open to the users and two under construction, and expected to be ready for public use in 2015. In service since 1994, XRD1 is a general-purpose diffraction beamline. The light source for this wide (4–21 keV) energy range beamline is a permanent magnet wiggler. XRD1 covers experiments ranging from grazing incidence X-ray diffraction to macromolecular crystallography, from industrial applications of powder diffraction to X-ray phasing with long wavelengths. The bending magnet powder diffraction beamline MCX has been open to users since 2009, with a focus on microstructural investigations and studies under non-ambient conditions. A superconducting wiggler delivers a high photon flux to a new fully automated beamline dedicated to macromolecular crystallography and to a branch beamline hosting a high-pressure powder X-ray diffraction station (both currently under construction). Users of the latter experimental station will have access to a specialized sample preparation laboratory, shared with the SISSI infrared beamline. A high throughput crystallization platform equipped with an imaging system for the remote viewing, evaluation and scoring of the macromolecular crystallization experiments has also been established and is open to the user community.
KeywordsFree Electron Laser Macromolecular Crystallography ZnSe Nanowires Superconducting Wiggler Remote Data Collection
- 1.E. Karantzoulis, A. Carniel, S. Krecic, in IPAC2014: Proceedings of the 5th International Particle Accelerator Conference, Dresden, Germany, edited by Christine Petit-Jean-Genaz, Gianluigi Arduini, Peter Michel, Volker R.W. Schaa (JACoW, Geneva, Switzerland, 2014) p. 261.Google Scholar
- 2.M. Svandrlik, in IPAC2014: Proceedings of the 5th International Particle Accelerator Conference, Dresden, Germany, edited by Christine Petit-Jean-Genaz, Gianluigi Arduini, Peter Michel, Volker R.W. Schaa (JACoW, Geneva, Switzerland, 2014) p. 2285.Google Scholar