Helios Unlocks a New Frontier in Superconductivity
Led by Henrik Dreyer
The search for lossless electricity has defined a century of physics.
In this technical webinar, Helios Unlocks a New Frontier in Superconductivity, Dr. Henrik Dreyer, Principal Manager for R&D at ĢƵ, provides a deep dive into his team’s recent breakthrough. Using ĢƵ’s latest generation Helios quantum computer, the team simulated the non-equilibrium Fermi-Hubbard model at an unprecedented scale, offering new insights into recent observations of transient room-temperature superconductivity.
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Dr. Michael Foss Feig
Michael is a fellow physicist at ĢƵ 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 ĢƵ, Michael worked on a variety of topics at the interface of atomic physics, quantum optics, condensed-matter physics, and quantum information.