List of Courses planned by APS SAXS SIG
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Irena and Nika software course
Beyond Rg Materials
Beyond Rg Bio
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SAXS Software Packages Irena and Nika
To be announced...
Hardware & software requirements
Successful small-angle x-ray scattering (SAXS, SANS) experiment requires appropriate data reduction and analysis tools. Igor Pro based packages Nika (for SAXS data reduction) and Irena (for SAS = SAXS/SANS/USAXS/USANS data analysis) were developed during the last 15 years at the APS. They are already being used widely for material science SAS at the APS and at other facilities worldwide. These tools are commonly included in syllabus of "Beyond Rg Materials" - SAXS short course organized semi-annually by APS SAXS SIG (see this page for next one). However, the main audience of this SAXS short course is new SAXS users, starting with their own SAXS program and therefore it focuses more heavily on experiments, theory etc. The time devoted in this course for software is insufficient for experienced experimenters interested in complex software applications.
Therefore, the APS SAXS Special Interest Group (SIG) is organizing this specialized, hands-on, course specifically on the SAS software Nika and Irena. The course will be taught by the software author, Jan Ilavsky, APS staff member. In order to provide high educational value, the number of participants will be limited to 20. Participants are expected to have a high level of SAS experience and bring their own computers (Windows or OSX). In addition, they are encouraged to bring their own SAS experimental results.
NOTE: This course is NOT for bioSAXS (protein structure and similar mono dispersed systems), the Irena software is mostly suitable for polydispersed and complex (hierarchical) systems. If you are not sure if your scientific application fits in the scope of this software, please ask.
Beyond Rg Materials SAXS
Expected for March/April 2025
Hardware requirements for software participation.
The objective of the Materials Small-Angle Scattering Short Course is to raise the capabilities of the materials small-angle scattering (SAS) and grazing-incidence SAXS (GISAXS) community by providing an intermediate-level course for those in need of a better understanding of SAS & GISAXS theory, and techniques utilized at the APS. This SAXS short course will offer an overview of small-angle scattering (SAS, including x-ray and neutron scattering) theory, SAS methods and capabilities for materials science, physics, chemistry, polymers etc. Course will include basics on data reduction and short introduction to data analysis tools to enable the community to submit highly effective beam-time proposals and to facilitate better utilization of the resources at the APS.
Participants are expected to have attained at least a doctoral-level education and are encouraged to have a defined experimental program needing small-angle scattering. Participants encouraged to bring their own notebook computers.
SYLLABUS
Fundamentals of Small-Angle Scattering
Theories and Applications of SAXS and GISAXS
SAXS Sample Preparation
Small Angle Scattering Instrumentation
Specific topics of SAXS applications in Chemistry, Polymers, Materials science etc.
Strategies to Write Successful Beam-Time Proposals
SPEAKERS
Jan Ilavsky, XSD/ Argonne
Soenke Seifert, XSD/Argonne
Steven Weigand, DND-CAT/Northwestern
Byeongdu Lee, XSD/Argonne
and other APS XSD and APS CAT's staff members.
Beyond Rg BioSAXS
Expected July 2025.
Solution small-angle x-ray scattering has earned great popularity and success in biological studies owing to the advances in brilliant x-ray sources, large area detectors, and, more importantly, data analysis methods in the past two decades. The objective of the “Beyond Rg: BioSAXS Short Course" is to raise the awareness and capabilities of the small-angle scattering (SAS) techniques in the structural biology community by providing an intermediate-level course for those in need of a better understanding of bioSAS theory, and techniques and facilities provided at the APS.
This bioSAXS short course will offer an overview of small-angle scattering (SAS, including x-ray and neutron scattering) theory, SAS methods and capabilities for structural biology, and data reduction and analysis tools, to enable the community to submit highly effective beam-time proposals and to facilitate better utilization of the resources at the APS. Although many methods covered in this course were originally developed for biomolecules which are often mono-dispersed, this course may be also useful for those work with solution samples with high structural homogeneity. However, this course is NOT for soft materials that are polydispersed.
Participants are expected to have attained at least a graduate student-level education and are encouraged to have a defined experimental program. Participants must bring their own notebook computers for software practice.
SYLLABUS
Fundamentals of Small-Angle Scattering
Small Angle Scattering Instrumentation
Fundamentals and Theories BioSAXS
Theories and Applications of BioSANS
BioSAXS Sample Preparation
Time-Resolved X-ray Scattering
Overview of ATSAS software package
ATSAS Software Practice
BioXTAS RAW Intro and Practice
Applying Beamtime at APS
SPEAKERS
Jesse Hopkins, BioCAT/IIT
Jan Ilavsky, XSD/Argonne
Irina Kosheleva, BioCAR/UChicago
Shuo Qian, ORNL
Soenke Seifert, XSD/Argonne
Max Watkins, BioCAT/IIT
Steven Weigand, DND-CAT/Northwestern
Xiaobing Zuo, XSD/Argonne
and other APS XSD and APS CAT's staff members
Last Webpage update 8/24/2022