In this section
GEM
GEM can be used to investigate the atomic local and long-range structures of crystalline and amorphous materials, and is well-suited for magnetic materials and larger unit cells. Its resolution/count rate balance supports research across energy, quantum and functional materials. Recent highlights include solid-state batteries, quantum spin liquids, and glasses for nuclear-waste immobilisation.
Instrument scientists
To find out more about each team member, click the + symbol.
Instrument cabin telephone number: 01235 445198
Technical information
| Moderator | Liquid methane at 110 K |
| Incident wavelength | ~0.1 to ~3.6 Å |
| Incident flight path | 17.0 m |
| Secondary flight path | 1.03 to 2.77 m |
| Incident beam dimensions (max) | 40 mm (h) x 15 mm (w) |
| Detector coverage | 3.86 steradians (7.27 m2) |
| Detector 2θ range | 5 – 171° |
| Q range | 0.1 – 60, at best |
| ΔQ/Q (%) | 4.7 – 0.34 (detector banks 1 – 6) |
Related resources
Sample environment
Equipment routinely used on GEM:
- Automatic sample changer (20 positions, room temperature)
- Furnace (RT to 1000°C)
- Top-loading CCR (5 to 300 K)
- He4 cryostat (2 to 300 K)
Non-standard sample environment:
- Gas panel kits for continuous gas flow cell or static gas loading experiments.
- High pressure cells
Visit the ISIS sample environment page or speak to your instrument contact.
Recent publications
Instrument reference
All publications and datasets based on experiments using GEM should cite that the data is collected by DOI: 10.5286/isis.instrument.4207. Experiment DOIs follow the format 10.5286/ISIS.E.RBXXXXXXX, where XXXXXXX is the 7-digit experiment (RB) number and these can be viewed via the Data Gateway.
Reference publication: Results on disordered materials from the GEneral Materials diffractometer, GEM, at ISIS, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 551, 1, 2005, 88-107. DOI: 10.1016/j.nima.2005.07.053.