Joint Quantum Seminar
Wednesday, November 13
12 PM, Jefferson 250
*PLEASE NOTE SPECIAL TIME*
Michelle Simmons - Centre of Excellence for Quantum Computation and Communication
Technology, University of New South Wales
Atomic qubits in silicon
Abstract: Building a quantum computer in the highly manufacturable material silicon offers
many advantages. Phosphorus atom qubits in silicon in particular have demonstrated
extremely long (up to 35 s) coherence times with >99.9% fidelity. Their small size,
combined with the magnetically quiet environment of isotopically pure silicon, make them
analogous to ion trap qubits but in a scalable solid-state system. One of the challenges
for semiconductor qubits is to understand how to engineer and control qubit
initialisation, read-out and coupling at nm length scales. Scanning probe techniques,
combined with molecular beam epitaxy allow us to realise fully crystalline devices at the
atomic scale and directly probe the qubit wave function with exquisite precision. We will
discuss the ability to scale atomic qubits and long term vision for this approach.
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