Discussion Group B4: Difference between revisions

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== Discsussion Notes ==
== Discsussion Notes ==
* There is a huge potential and a lot of possible applications of GISAS from different fields such as self assembly, magnetism, superconductivity, biology, solid-liquid boundaries and dynamics or surface exitations which have been identified.
* Past GISAS studies tend to apply "conventional - quasi kinematic" scattering techniques to grazing incidence geometery.
* Only a few studies take advantaged of Yoneda scattering
* The opportunity of specially designed samples for channeling waves should be investigated.
* For depth resolved measurements of two surfaces in contact with each other the resolution function needs to be known extremely well. Tails of the resolution function must be avoided.
* Information and specification of current instrumentation is not standardized and summarized.
* There are simulation tools out there such as: Bornagain, FitGISAS, ISGISAXS, PyGISAXS and HIGISAXS.  There nonetheless remains a large and pressing need for better theoretical understanding and analysis methods.
* "Education" beyond the kinematic theory is limited.
The Session identified this as an area appropriate for a new working group with following staged activities:
# Round Robin sample (CdSe particles in polymer on CrAu)
# Analysis and new opportunities
## Analysis - can we go beyond DWBA?
## wave amplitude amplification and explore channeling
# How to distribute data: Corrected? Transformed? What is Q? Should it be defined in the laboratory frame or the sample frame?
# Teaching of dynamical theory
Initial members:
* Ronald Jones (NIST, Chair)
*Max Wolff (Uppsala University)
* Alex Hexemer (Berkeley Light Source)
* Andrew Nelson (ANSTO)
* Henrich Frielinghaus (JCNS)

Latest revision as of 22:19, 13 September 2015

GISAS: challenges and opportunities and collaborative possibilities in harnessing the potential

Discussion Leaders

  • Max Wolf

Presentations

Discsussion Notes

  • There is a huge potential and a lot of possible applications of GISAS from different fields such as self assembly, magnetism, superconductivity, biology, solid-liquid boundaries and dynamics or surface exitations which have been identified.
  • Past GISAS studies tend to apply "conventional - quasi kinematic" scattering techniques to grazing incidence geometery.
  • Only a few studies take advantaged of Yoneda scattering
  • The opportunity of specially designed samples for channeling waves should be investigated.
  • For depth resolved measurements of two surfaces in contact with each other the resolution function needs to be known extremely well. Tails of the resolution function must be avoided.
  • Information and specification of current instrumentation is not standardized and summarized.
  • There are simulation tools out there such as: Bornagain, FitGISAS, ISGISAXS, PyGISAXS and HIGISAXS. There nonetheless remains a large and pressing need for better theoretical understanding and analysis methods.
  • "Education" beyond the kinematic theory is limited.


The Session identified this as an area appropriate for a new working group with following staged activities:

  1. Round Robin sample (CdSe particles in polymer on CrAu)
  2. Analysis and new opportunities
    1. Analysis - can we go beyond DWBA?
    2. wave amplitude amplification and explore channeling
  3. How to distribute data: Corrected? Transformed? What is Q? Should it be defined in the laboratory frame or the sample frame?
  4. Teaching of dynamical theory


Initial members:

  • Ronald Jones (NIST, Chair)
  • Max Wolff (Uppsala University)
  • Alex Hexemer (Berkeley Light Source)
  • Andrew Nelson (ANSTO)
  • Henrich Frielinghaus (JCNS)