Instruments by Science Group
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Filter the listB16 Test Beamline
This is a flexible and versatile beamline for testing new developments in optics and detector technology and for trialling new experimental techniques. The beamline provides both white and monochromatic X-rays in several operational modes.
More informationI07 Surface and Interface Diffraction
I07 is a high-resolution X-ray diffraction beamline for investigating the structure of surfaces and interfaces under different environmental conditions, including, for example, semiconductors and biological films.
More informationEnergy: 6 - 30 keV
B07 VERSOX: Versatile Soft X-ray
B07 will be a highly versatile soft x-ray beamline for NEXAFS/XPS suitable for studies of heterogenous catalysis, pharmaceuticals & biomaterials under realistic conditions, electronic & photonic materials, atmospheric & space science on liquids/ices and heritage conservation.
More informationEnergy: 50 - 2800 eV
I09 SISA: Surface and Interface Structural Analysis
I09 is designed to provide both soft and hard X-rays for high-resolution studies of atomic and electronic structures of surfaces and interfaces using photoelectron spectroscopy, near edge X-ray absorption fine structure, X-ray standing waves and photoelectron diffraction.
More informationI05 ARPES
I05-ARPES is a facility dedicated to the study of electronic structures of solids and their surfaces by Angle-Resolved Photoemission Spectroscopy (ARPES). The ultra-high vacuum low temperature high resolution ARPES end station is served by an intense, highly monochromatic VUV to XUV photon beam from a variable polarisation Apple II undulator.
More informationEnergy: 18 - 240 eV
eBIC
eBIC provides scientists with state-of-the-art experimental equipment and expertise in the field of cryo-electron microscopy, for both single particle analysis and cryo-tomography. Currently eBIC houses four Titan Krios microscopes, a Talos Arctica, an Aquilos cryo-FIB/SEM and a cryo-CLEM microscope.
More informationB24 Correlative cryo-imaging
Operational in optimisation mode
B24 is the full-field transmission microscope at Diamond designed specifically to meet the rising demand for tomographic imaging of biological specimens under near physiological conditions.
More informationK11 DIAD: Dual Imaging and Diffraction
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.
More informationDetector: PCO.edge or equivalent, Pilatus Dectris 2M CdTe
Energy: 7-38 keV
I08 Scanning X-ray Microscopy
Scanning X-ray Microscopy with variety of imaging and spectomicroscopy modes: Transmission incl. absorption and phase-sensitive contrasts, and X-ray fluorescence.
More informationEnergy: 0.25 - 4.2 keV
I14 Hard X-ray Nanoprobe
The Hard X-ray nanoprobe I14 beamline is a dedicated facility for nanoscale microscopy. The central theme of the beamline is the ability to obtain structural and chemically-specific information on a full range of materials (inorganic/organic) under both static and real (e.g. wet, heated, in-situ strain) conditions.
More informationI13-1 X-ray Coherence
I13-1 is a hard X-ray beamline, operating in the 6-20keV range. The beamline specialises in high-speed, multiscale and multimodal coherent diffraction imaging and ptychography in both transmission and Bragg geometries.
More informationI12 JEEP: Joint Engineering, Environment and Processing
I12 is a high-energy beamline principally for Material Science, Engineering and Processing Science. The instrument’s main focus is to allow in situ studies of samples in environments as close as possible to real world environments using imaging, tomography, diffraction and small-angle scattering. I12 is particularly well suited to study large or dense objects and offers a unique sample and environment installation facility for weights up to 2000 kg.
More informationEnergy: 53 – 150 keV
I08-1 Soft X-ray Ptychography
Commissioning
I08-1 is the soft X-ray ptychography instrument at Diamond. The instrument is designed for ptychographic imaging, spectromicrosopy and tomography. I08-1 (J08) is currently in its commissioning/ optimisation phase and is open for proposal applications,
More informationEnergy: 0.25 – 2 keV
ePSIC
ePSIC provides scientists with state-of-the-art experimental equipment and expertise in the filed of physical sciences electron microscopy and characterisation. Currently ePSIC offers beam time on two fully operational microscopes: (E01) A probe-corrected JEM ARM200F with EELS and EDX capabilities in collaboration with Johnson Matthey, and (E02) a probe and image corrected JEM ARM300F in collaboration with University of Oxford.
More informationI13-2 X-ray Imaging
The Diamond Manchester Imaging beamline performs real space imaging and tomography in the 8-30keV energy range. Absorption contrast and in-line phase contrast imaging are both available.
More informationI18 Microfocus Spectroscopy
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.
More informationEnergy: 2.05 - 20.5 keV
B18 Core XAS
B18 is a general purpose EXAFS beamline. The Core-EXAFS is used for an extensive range of studies and applications, including local structure and electronic state of active components, and the study of materials including fluids, crystalline and non-crystalline (amorphous phases & colloids) solids, surfaces and biomaterials.
More informationEnergy: 2.05 - 35 keV
I20 LOLA: Versatile X-ray Spectroscopy
I20 now covers two very distinctive modes of operation: X-ray Absorption Spectroscopy (XAS) on challenging samples, X-ray Emission Spectroscopy (XES). The beamline is equipped with a wiggler for the scanning branchline (I20-scanning). The Energy Dispersive branch has been closed.
More informationEnergy: I20-Scanning: design range of 4 - 34 keV; currently operating between 4.5 -20 keV
I16 Materials and Magnetism
The Materials and Magnetism beamline provides a unique, world-class single crystal X-ray diffraction facility for studying a diverse range of materials.
More informationI17 Coherent Soft X-ray Imaging and Diffraction
In design phase
The Coherent Soft X-ray Imaging and Diffraction (CSXID) beamline will be one of the three flagship beamlines in the Diamond-II upgrade programme, and will provide a range of high-resolution coherent imaging techniques including ptychography and holography.
More informationI06 Nanoscience
I06 is a polarised spectroscopy and microscopy beamline equipped with a PEEM, 6 T low temperature (1.5 K) superconducting magnet, 2 T vector magnet as well as soft X-ray diffraction vacuum goniometer.
More informationI10 BLADE: X-ray Dichroism and Scattering
I10 is a beamline for the study of electronic and magnetic structure using soft X-ray resonant scattering (reflection and diffraction) and X-ray absorption. It allows a broad range of studies focused on the spectroscopic properties and magnetic ordering of novel nanostructured systems
More informationI21 Inelastic X-ray Scattering
I21 is a dedicated Resonant Inelastic X-ray Scattering (RIXS) beamline that provides a highly monochromatised, focused and tunable X-ray beam onto materials, while detecting and energy-analysing scattered X-rays using a spatially-resolved two-dimensional detector.
More informationI11 High Resolution Powder Diffraction
I11 is a high resolution powder diffraction beamline for structural crystallography using an undulator source. This beamline specialises in investigating the structure of complex materials, including metal-organic frameworks, high temperature superconductors, ceramics, alloys, zeolites and minerals under non-ambient, time-resolved, and long duration conditions.
More informationEnergy: 6-25 (30*) keV - optimised at 15 keV
I15-1 XPDF: X-ray Pair Distribution Function
XPDF (I15-1) is a dedicated X-ray Pair Distribution Function beamline. The pair distribution function allows researchers in fields as diverse as materials chemistry; solid-state physics; earth science; and pharmaceuticals to gain insight into the local structure of crystalline, amorphous, and liquid materials both ex situ and in situ.
More informationEnergy: 40, 65, 76 keV
I19 Small Molecule Single Crystal Diffraction
I19 is a high-flux tunable-wavelength facility for the study of small-molecule systems by single-crystal X-ray diffraction techniques. The beamline supports a variety of techniques to allow the structural change of systems to be mapped under the influence of an external effect (such as pressure, temperature, photoexcitation or gas exchange).
More informationEnergy: 5 - 25 keV
I15 Extreme Conditions
I15, the extreme conditions beamline, is a high energy diffraction and scattering beamline used to explore planetary interior conditions, as well as other experiments requiring high pressures and non-ambient temperatures.
More informationEnergy: 20-80 keV
I02-1 VMXm
Commissioning
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.
More informationDetector: Pilatus3 6M (Si) and Eiger2 X 9M (CdTe)
Wavelength: 0.44 - 1.77 Å
Energy: 7.0 - 28.0 keV
I04-1 Fixed wavelength MX
High throughput and highly automated fixed wavelength SAD beamline for macromolecular crystallography.
More informationDetector: Pilatus 6M-F
Wavelength: 0.92Å (fixed)
I03 MX
High throughput and fully automated beamline for optimised MX experiments. Capable of accepting CL3 type experiments on crystals of pathogens.
More informationDetector: Eiger2 XE 16M
Wavelength: 0.5 - 2.5 Å
I23 Long-Wavelength MX
Operational in optimisation mode
A unique facility for solving the crystallographic phase problem, using the small anomalous signals from sulphur or phosphorous which are present in native protein or RNA/DNA crystals. Additionally, anomalous difference Fourier maps can be used to locate sulphur and phosphorous positions to assist model building at low resolution and/or identify lighter atoms such as chlorine, potassium and calcium.
More informationEnergy: 2.1 – 11 keV
I04 Microfocus MX
Variable focus from 5 to 100 microns, high throughput and highly automated beamline for optimised MAD and SAD experiments.
More informationDetector: Eiger2 XE 16M
Wavelength: 0.69 - 2.07 Å
Crystallisation Facility
The Crystallisation Facility @ Harwell is a research and training facility for the scientific community interested in solving the 3D structures of soluble or membrane proteins by X-ray crystallography.
More informationMembrane Protein Laboratory
The Membrane Protein Lab (MPL) at Diamond is a research and training facility for scientists interested in solving the 3D structures of membrane proteins by X-ray crystallography.
More informationI24 Microfocus MX
High throughput variable microfocus beamline for optimised MAD and SAD experiments on crystals down a few microns in size.
More informationDetector: Pilatus3 6M
Wavelength: 0.62Å - 1.77Å
I02-2 VMXi
Operational in optimisation mode
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 informationEnergy: 16 keV
XFEL Hub
The UK is taking a leading role in the development of a new structural biology facility (SFX) at the European X-ray Free Electron Laser (XFEL), in Hamburg, Germany, and a complementary facility at Diamond (The UK XFEL Hub) to help develop the required expertise.
More informationXChem - Fragment Screening
The fragment screening facility at Diamond Light Source is based in Lab 36 and on beamline I04-1. The scope of the facility is to encompass all stages of the fragment screening experiment.
More informationI22 Multipurpose SAXS/WAXS
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.
More informationDetector: Pilatus P3-2M(SAXS), Pilatus P3-2M-L (WAXS)
Wavelength: 0.62 - 1.77 Å
Energy: 7 - 20 keV
B22 Multimode InfraRed Imaging And Microspectroscopy
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.
Detector: MCT, FPA, DLaTGS and Bolometer
Wavelength: 1 mm - 1 µm (10,000 to 10 cm-1)
Energy: 1 meV - 1 eV
B21 High Throughput SAXS
B21 is a bending magnet Small Angle X-ray Scattering (SAXS) beamline primarily focused on dilute solution state systems.
More informationDetector: Eiger 4M
Energy: 6 - 23 keV
B23 Circular Dichroism
B23 is a life sciences, chemistry and material science beamline for investigating and observing structural, functional and dynamic interactions in elements such as proteins, nucleic acids, nanoparticles and chiral molecules.
More informationDetector: PMT
Wavelength: 125 - 650 nm
Energy: 2 - 10 eV
labSAXS
labSAXS is an offline SAXS instrument that compliments I22 and B21 in delivering the highest quality lab SAXS data. The Instrument will also act as a testbed for Sample Environment Development for SAXS.
More informationDetector: Eiger 2 R 1M (SAXS), Pilatus 3 R 100K (WAXS)
Wavelength: 0.71 & 1.35 Å
Energy: 9.2, 17.4 keV