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Anything-goes “anyons” may be at the root of surprising quantum experiments

MIT News | Massachusetts Institute of Technology · MIT physics, Research Laboratory of Electronics, Senthil Todadri, electron fractions, fractional quantum anomalous Hall effect, anyons, bosons, Fermions, superconductivity, Magnetism, quantum computing, stable qubits

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MIT theoretical physicists may have an explanation for the surprising observation that
superconductivity and magnetism can co-exist in some materials. They propose that
under certain conditions, a magnetic material’s electrons could splinter into
quasiparticles known as “anyons,” some of which could flow together without friction —
an entirely new form of superconductivity.
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Topic area: MIT physics, Research Laboratory of Electronics, Senthil Todadri, electron
fractions, fractional quantum anomalous Hall effect, anyons, bosons, Fermions,
superconductivity, Magnetism, quantum computing, stable qubits.
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Credits: MIT News | Massachusetts Institute of Technology