Beam line 14-1 employs a vertically collimating Rh-coated Si mirror, and a double-crystal Si(111) monochromator with a 0.013% energy bandpass producing ~2x1011 p/s at 10 KeV and providing an energy range that extends from 6 to 13 KeV. A vertically and horizontally focusing toroid mirror produces a beam focus of 50 x 80 um2.
BL12-2 is optimized for high-throughput micro-crystal macromolecular crystallography data collection to high-resolution. BL12-2 also supports advanced serial and time-resolved crystallography methods. BL12-2 is an undulator beam line with a fully adjustable focus. Micron-sized beams (10 x 10 µm2 or 20 x 20 µm2) are achieved with precision micro-collimators. BL12-2 is SAD and MAD capable and can be run in a fully remote access mode.
BL12-1 is designed for investigations of the most challenging macromolecular crystallography systems confronting scientists today, including cases where crystals can only be grown to a few microns in size, serial room temperature studies and time-resolved measurements. BL12-1 supports fully remote-access experiments using samples at cryogenic conditions in uni-pucks or cassettes, and samples at controlled humidity and elevated-temperature conditions using specialized SSRL plates.
BL 9-2 is a broad-fan wiggler end station dedicated for monochromatic, high-throughput and high-resolution macromolecular crystallography experiments. Optimized for SAD and MAD experiments, BL9-2 can be run in a full remote access mode and features a remote access-controlled UV-Vis microspectrophotometer for in-situ single crystal absorption spectroscopy measurements.
Beam line 7-1 is a 8-pole, 2.0-Tesla wiggler side-station beam line optimized for monochromatic, high-throughput, high-resolution macromolecular crystallography. It is SAD and MAD capable and can be run in a full remote access mode. It is equipped with an ADSC Q315R CCD detector. Currenlty 7-1 is dedicated to staff development and user training.
See the Macromolecular Crystallography website for details.