Our physical, 3D world consists of just two types of particles: bosons, which include light and the famous Higgs boson; and fermions—the protons, neutrons, and electrons that comprise all the "stuff," present company included.
Theoretical physicists like Ashvin Vishwanath, Harvard's George Vasmer Leverett Professor of Physics, don't like to limit themselves to just our world, though. In a 2D setting, for instance, all kinds of new particles and states of matter would become possible.
Vishwanath's team used a powerful machine called a quantum processor to make, for the first time, a brand-new phase of matter called non-Abelian topological order. Previously recognized in theory only, the team demonstrated synthesis and control of exotic particles called non-Abelian anyons, which are neither bosons nor fermions, but something in between.
Their results are published in Nature in collaboration with researchers at the quantum computing company Quantinuum. Vishwanath's team included former Harvard Kenneth C. Griffin Graduate School of Arts and Sciences student Nat Tantivasadakarn '22, now at Caltech, and postdoctoral fellow Ruben Verresen.
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