Researchers at the University of Sydney in Australia are building next-generation quantum-engineered devices based on quasiparticles called Majorana fermions, whose existence was recently validated by the efforts of researchers at the Technical University Delft in the Netherlands.
The Delft team proved that electrons on a one-dimensional semiconducting nanowire will possess a quantum spin opposite to its momentum in a finite magnetic field.
"This information is consistent with previous reports observing Majorana fermions in these nanowires," says Maja Cassidy, a senior researcher at Microsoft's Station Q Sydney, based at the University of Sydney Nanoscience Hub.
Quantum bits (qubits) that use Majorana fermions will have their information encoded via their geometry, or topology.
The braiding of the Majoranas promises to encode quantum information in a manner that is highly resistant to interference.
The University of Sydney team is working with Microsoft Station Q engineers to build the new devices, which are designed to function as the core of the first practical topological quantum computers.
From University of Sydney
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