Simulating Magnetism at the Classical Limits
with a Digital Quantum Computer
Quantinuum’s System Model H2 provides new information about the fundamental physics behind sensors, defense applications, and non-invasive medical techniques.
Thursday, May 8th, 2025
Option 1: 08:00 PT | 09:00 MT | 11:00 ET | 16:00 BST | 17:00 CET
Option 2: 18:00 PT | 19:00 MT | 21:00 ET | 09:00 SGT May 9th | 10:00 JST May 9th
Our quantum computers are now a useful tool for advancing scientific discovery.
During this hour-long technical webinar, Dr. Michael Foss Feig, Fellow, will explain how his team, alongside researchers from Caltech, Fermioniq, EPFL, and the Technical University of Munich, used our System Model H2, the world’s highest performing commercially available quantum computer, to simulate quantum magnetism. The simulation was done at a scale and level of accuracy that pushes the boundaries of the best-known classical techniques and provides an entry point that could lead directly to innovations in fields from biochemistry, to defense, to new materials.
Resources
Learn more about this innovative simulation, performed using our System Model H2: the world’s highest-performing commercially available quantum computer.
Get in touch
Partner with us to leverage our industry-leading full-stack quantum technologies to explore breakthroughs in drug discovery, healthcare, materials science, cybersecurity, energy transformation, and climate change.
Dr. Michael Foss Feig
Michael is a principal physicist at Quantinuum working on theoretical aspects quantum computation with trapped ions. His research is currently focused mainly on near-term applications of quantum computers, especially to solving problems in quantum many-body physics. Before joining Quantinuum, Michael worked on a variety of topics at the interface of atomic physics, quantum optics, condensed-matter physics, and quantum information.