NSLS-II biomedical beamlines for micro-crystallography, FMX, and for highly automated crystallography, AMX: new opportunities for advanced data collection

We present the final design of the x-ray optics and experimental stations of two macromolecular crystallography (MX) beamlines at the National Synchrotron Light Source-II. The microfocusing FMX beamline will deliver a flux of similar to 5x10(12) ph/s at 1 angstrom into a 1-20 mu m spot, its flux density surpassing current MX beamlines by up to two orders of magnitude. It covers an energy range from 5-30 keV. The highly automated AMX beamline is optimized for high throughput, with beam sizes from 4-100 mu m, an energy range of 5-18 keV and a flux at 1 angstrom of similar to 10(13) ph/s. A focus in designing the beamlines lay on achieving high beam stability, for example by implementing a horizontal bounce double crystal monochromator at FMX. A combination of compound refractive lenses and bimorph mirror optics at FMX supports rapid beam size changes. Central components of the in-house developed experimental stations are horizontal axis goniometers with a target sphere of confusion of 100 nm, piezo-slits for dynamic beam size changes during diffraction experiments, dedicated secondary goniometers for data collection from specimen in crystallization plates, and next generation pixel array detectors. FMX and AMX will support a broad range of biomedical structure determination methods from serial crystallography on micron-sized crystals, to structure determination of complexes in large unit cells, to rapid sample screening and room temperature data collection of crystals in trays.