Difference between revisions of "Mail-In Bases"
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The Large size is a ~ 2x larger diameter (~ 3x increase in scattering cross section) when compared with the standard 0.8 mm diameter Kapton tube capillary. These larger capillaries are allow users with low Z, or low X-ray scattering, samples to place more sample into the beam during the measurements. More scattering events normally gives higher quality data with better statistics. | The Large size is a ~ 2x larger diameter (~ 3x increase in scattering cross section) when compared with the standard 0.8 mm diameter Kapton tube capillary. These larger capillaries are allow users with low Z, or low X-ray scattering, samples to place more sample into the beam during the measurements. More scattering events normally gives higher quality data with better statistics. | ||
Users should consider the | Users should consider the [https://wiki-ext.aps.anl.gov/ug11bm/index.php/Samples_with_Strong_X-Ray_Absorption#Guidelines_for_11-BM_Mail-In_Samples μ*r of their sample(s)]. | ||
https://wiki-ext.aps.anl.gov/ug11bm/index.php/Samples_with_Strong_X-Ray_Absorption#Guidelines_for_11-BM_Mail-In_Samples | |||
An ideal μ*r value is ~ 1.0 | An ideal μ*r value is ~ 1.0 | ||
Revision as of 22:52, 29 April 2013
Users can now select 2 sizes of sample mounting bases:
- Standard bases: 0.8 mm diameter capillary. This is the standard size used for all mail-in measurements prior to 2013.
- Large bases: 1.5 mm diameter capillary. New for 2013
The Large size is a ~ 2x larger diameter (~ 3x increase in scattering cross section) when compared with the standard 0.8 mm diameter Kapton tube capillary. These larger capillaries are allow users with low Z, or low X-ray scattering, samples to place more sample into the beam during the measurements. More scattering events normally gives higher quality data with better statistics.
Users should consider the μ*r of their sample(s).
An ideal μ*r value is ~ 1.0
More info will be placed here soon.
Please ask 11-BM staff ([email protected]) with any questions about which size is correct for your experiment.
