Difference between revisions of "Labscale"
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* [https://www.bruker.com/ Bruker] ([https://www.bruker.com/products/x-ray-diffraction-and-elemental-analysis/small-angle-x-ray-scattering/saxs/small-angle-scattering.html SAXS]) | * [https://www.bruker.com/ Bruker] ([https://www.bruker.com/products/x-ray-diffraction-and-elemental-analysis/small-angle-x-ray-scattering/saxs/small-angle-scattering.html SAXS]) | ||
* [http://www.rigaku.com/en Rigaku] ([http://www.rigaku.com/en/applications/SAXS_nanotechnology SAXS]) | * [http://www.rigaku.com/en Rigaku] ([http://www.rigaku.com/en/applications/SAXS_nanotechnology SAXS]) | ||
| + | * [http://saxslab.com/ SAXSLAB] ([http://saxslab.com/ganesha/ SAXS]) | ||
* [http://www.xenocs.com/en/ Xenocs] ([http://www.xenocs.com/en/solutions/xeuss-saxs-waxs-laboratory-beamline/ SAXS]) | * [http://www.xenocs.com/en/ Xenocs] ([http://www.xenocs.com/en/solutions/xeuss-saxs-waxs-laboratory-beamline/ SAXS]) | ||
Revision as of 12:21, 18 May 2016
The term labscale is informally used to refer to small-scale x-ray instruments used for diffraction or scattering, in comparison to synchrotron beamlines. These may also be called in-house of benchtop instruments.
Labscale instruments typically use a rotating anode as an x-ray source. Their flux is much lower than a synchrotron (which is 3-6 orders-of-magnitude brighter); e.g, 107 to 108 photons/s. Labscale instruments also typically haver larger beam sizes, worse resolution, and lower coherence. Nevertheless, useful data can be obtained on many systems, especially strongly scattering samples.
