Akio Tomiya
Akio Tomiya is a Full-Time Lecturer in the Department of Mathematical Sciences, Major in Information Mathematics, Faculty of Contemporary Liberal Arts at Tokyo Woman’s Christian University. Born in Takarazuka, Hyogo Prefecture in 1987, he received a BSc from the University of Hyogo in 2010, followed by an MSc (2012) and PhD (2015) in Physics from Osaka University. He has served as a Postdoctoral Researcher at Central China Normal University, and an SPDR Postdoctoral Researcher at the RIKEN BNL Research Center. From 2021 to 2024, he was a Tenured Assistant Professor at Osaka International Professional University of Technology in Osaka. His research focuses on lattice gauge theory, machine learning, and quantum computing. He is a recipient of the 29th Physical Society of Japan Paper Award (2024) and the 14th Particle Physics Medal Award for young researcher (2019). Further details are available on his website:
https://www2.yukawa.kyoto-u.ac.jp/~akio.tomiya/aboutme.html.
Sessions
JuliaQCD is a versatile tool for lattice Quantum Chromodynamics (QCD), a key framework in particle physics for studying the strong force that binds quarks and gluons. Designed for seamless scalability, it runs efficiently on CPU/GPU systems from laptops to supercomputers (e.g. Fugaku). By implementing standard algorithms like Hybrid Monte Carlo (HMC) with a focus on rapid and efficient research, JuliaQCD enables scientists to explore fundamental physics with unprecedented flexibility and speed.
We present TwoBody.jl, a Julia package for solving quantum mechanical two-body problems in hadron physics, quantum chemistry, and other fields. This package has several methods for solving the Schrödinger equation. Since this package allows users to construct custom Hamiltonians, it is well-suited for general two-body problems. Software testing is performed using Antique.jl. We present the research and the development workflow using these two Julia packages.