Typically the beam has a size of tens of microns, however using X-ray optics the beam is reduced to a size of 1-5 μm. This means micron sized crystals can be investigated.
µX-ray absorption spectroscopy, µX-ray fluorescence imaging and µdiffraction using high-brightness focused X-ray beam. Other techniques available include X-ray Excited Optical Luminescence (XEOL), X-ray Fluorescence Tomography, Fluorescence ReflEXAFS, Differential Phase Contrast Imaging.
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I22 is a multifunction SAXS/WAXS beamline for the physical and life sciences. Small-angle scattering provides essential information on the structure and dynamics of large molecular assemblies in low ordered environments. Working in both transmission and grazing incidence with full and microfocus beam I22 provides a working platform for studying the full range of soft matter systems.
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MIRIAM provides a brilliant and versatile microprobe across the whole IR range, for the highest spatial resolution of molecular structures via highest sensitivity vibrational spectroscopy in Fourier Transform IR (FTIR) mode, plus TeraHertz (THz) spectroscopy.
Multidisciplinary experiments span from ex vivo/in vitro biomedical studies to in situ/operando physical-chemical researches, geology to cultural heritage.
Since 2022, a new nanoIR endstation couples an Atomic Force Microscope to the B22 beamline and uniquely measures photothermal (AFM IR) and scattering (s-SNOM) nanospectroscopy at sub-wavelenght resolution.
DIAD will be the a dual beam instrument capable of imaging and diffraction at the same time at the micron scale. The beamline will enable in-situ experiments aiming to resolve the 3D microstructure (via imaging) and phase constitution/strain state of material (via diffraction) in quasi-simultaneously matter with switching times of a few Hz between analysis techniques.
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VMXm is a micro/nanofocus MX beamline aimed at atomic structure determination in cases where the production of significant quantities of protein material and crystals is problematic.
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Variable focus from 5 to 100 microns, high throughput and highly automated beamline for optimised MAD and SAD experiments.
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High throughput variable microfocus beamline for optimised MAD and SAD experiments on crystals down a few microns in size.
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The Versatile Macromolecular X-tallography in-situ (VMXi) beamline will be an entirely automated facility for characterisation of, and data collection directly from, crystallisation experiments in situ.
More informationDiamond Light Source is the UK's national synchrotron science facility, located at the Harwell Science and Innovation Campus in Oxfordshire.
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