The Advanced Photon Source
a U.S. Department of Energy Office of Science User Facility

APS Scientific Computation Seminar Series

Sessions will normally be held on the 3rd Monday of the month at 1:00 p.m. and last approximately one hour.

This seminar series focuses on scientific computation for APS experiments. The series focuses on advanced software and computing infrastructure for analysis, reduction, reconstruction, and simulation. It provides an opportunity to learn about state-of-the-art computational techniques and tools and how they are being applied to science at the APS. It will start with talks from Argonne staff who are working on projects in collaboration or in support of APS science.

Next Seminar:

In-situ TEM of the Radiation Effects on Material Microstructures in IVEM-Tandem Facility: Overview and Recent Development


Wei-Ying Chen, Materials Scientist, Nuclear Science and Engineering Division, Argonne National Laboratory

Date: September 26, 2022
Time: 1:00 PM (Central Time)

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Meeting ID: 161 535 6746
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The IVEM-Tandem Facility at Argonne National Laboratory is a leading user facility for in-situ TEM study of the radiation effects on material microstructures. It interfaces a 500 kV ion accelerator and a 20 kV helium ion source to a 300 kV Hitachi H-9000NAR TEM, allowing real-time microscopy under dual-beam ion irradiation damage/implantation with well-controlled conditions (specimen orientation, temperature, ion type, ion energy, dose, dose rate, applied strain). The superior electron brightness of LaB6 filament of the H9000 microscope makes it suitable for diffraction contrast imaging, permitting effective real time observation of the irradiation-induced defects in nanoscale. The IVEM-Tandem Facility was commissioned in 1995 in Material Science Division as part of the Electron Microscopy Center. Currently, it was transitioned to Nuclear Science and Engineering Division, supported by DOE Office of Nuclear Engineering. In FY17-FY20, it provided access to more than 20 user groups worldwide (65 awarded proposals) through Nuclear Science User Facility Program. The first part of the presentation today will give an overview of the capability of IVEM-Tandem Facility and the research conducted here, including fundamental studies of defect formation and evolution, tomography of defect distribution, phase stability and computer modeling and simulation in basic materials, advanced alloys, accident tolerant fuels and storage of spent nuclear fuels. The second part of the presentation is about our recent efforts to implement computer vision (CV) in in-situ TEM studies. TEM videos of in-situ ion irradiation experiments provide dynamic information of microstructural evolution that cannot be obtained from post-irradiation examinations. However, a dauntingly huge amount of video data has practically inhibited manual analysis, often leaving valuable dynamic information under-utilized in the past. To overcome the challenge, we took advantage of the recent advance in CV to fully exploit TEM video data. We will talk about two projects under development using semantic segmentation and multi-object tracking, respectively, to automatically analyze the evolution of irradiation-induced voids and cascade-induced vacancy clusters in nickel irradiated with 1 MeV krypton ions at between 550ºC to 700ºC. The nucleation, growth, coarsening and shrinkage of individual defect clusters were analyzed frame by frame. The application generates a unique data set that is rarely available before, and it enables a new way to measure the dynamic properties of materials under irradiation environments.

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