The Computational Physics Minisymposium highlights implementations and computations across areas of physics beyond computational chemistry and materials science, including, but not limited to nuclear physics, hadron physics, and particle physics. It serves as a “trading port” for computational methods that connect diverse subfields. This year’s symposium will feature a special session spotlighting the JuliaQCD and JuliaFewBody ecosystems.
We presented on hadron physics at JuliaCon 2025, but there was no suitable minisymposium. In Japan, computational physics is the field with the largest Julia population, and there is a need for a minisymposium on the topic of computational physics. We expect to see participants from the field of computational physics.
Postdoctoral Research Associate in Chemistry & Computer Science, Washington University in St. Louis
I am a lecturer in TWCU, visiting researcher of Riken, and an associate professor in Kyoto University using Julia for lattice QCD with machine learning.
I am a Ph.D. candidate at Yokohama City University and a junior research associate (JRA) at RIKEN in Japan. I launched JuliaFewBody for developing FewBody.jl, general-purpose flexible solvers for quantum mechanical few-body problems. At JuliaCon 2025, I presented several of his packages towards completing FewBody.jl.
I am the organizer of several events related to Julia and computational physics:
- Julia in Physics 2024,
- JuliaLang Japan 2025,
- Spring School on Computational Physics,
- Computational Physics Hackathon 2026 (CompPhysHack2026).
PhD student at the University of Copenhagen working on tensor networks
2010: Doctor of Science from The University of Tokyo
2010-2024: Senior Scientist , CCSE, Japan Atomic Energy Agency (JAEA)
2016-2017: Visiting Scholar, Department of Physics, Massachusetts Institute of Technology, USA
2018-2023: Visiting researcher in RIKEN AIP
2024: Associate Professor in the information technology center, The University of Tokyo