canSAS-XI/SampleEnvironment: Difference between revisions
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Apart from the discussion during the session there was active discussion around the posters and some of these related to sample environment: | Apart from the discussion during the session there was active discussion around the posters and some of these related to sample environment: | ||
(a) NURF – optimisation of multiple in situ simultaneous, autonomous characterisation techniques with small-angle neutron scattering. This describes simultaneous in-situ UV-vis and fluorescence spectroscopy with density measurements that are combined with SANS. | (a) NURF – optimisation of multiple in situ simultaneous, autonomous characterisation techniques with small-angle neutron scattering. This describes simultaneous in-situ UV-vis and fluorescence spectroscopy with density measurements that are combined with SANS. http://www.cansas.org/wgwiki/images/c/c2/NURF_Flowthrough_combined_SANS_spectroscopy.pdf | ||
(b) Additive Manufacturing of Neutron Shielding and Collimation materials. This describes new ways to shield various components including those around samples. | |||
== Actions == | == Actions == | ||
Revision as of 09:10, 26 October 2019
File:Sample Environment Discussion Primer Weigandt.pdf== Discussion session on Sample Environment == Chair : Katie Weigandt
<<upload introductory presentation from plenary as PDF and link here >>
Session Notes
Apart from the discussion during the session there was active discussion around the posters and some of these related to sample environment:
(a) NURF – optimisation of multiple in situ simultaneous, autonomous characterisation techniques with small-angle neutron scattering. This describes simultaneous in-situ UV-vis and fluorescence spectroscopy with density measurements that are combined with SANS. http://www.cansas.org/wgwiki/images/c/c2/NURF_Flowthrough_combined_SANS_spectroscopy.pdf
(b) Additive Manufacturing of Neutron Shielding and Collimation materials. This describes new ways to shield various components including those around samples.
