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SUMMARY:Silicon-based quantum computing:the path from the laboratory to in
 dustrial manufacture
DTSTART:20191211T161500
DTEND:20191211T171500
DTSTAMP:20260407T022617Z
UID:714bae26835c5e9e8f6ae676848ed2c741355d3aa7c0689bd8b82039
CATEGORIES:Conferences - Seminars
DESCRIPTION:Prof. Andrew Dzurak\, UNSW\, Sydney\, Australia\nIn this talk 
 I will give an overview of the development of silicon-based quantum comput
 ing (QC)\, from the basic science through to its prospects for industrial-
 scale commercialization based on CMOS manufacturing. I begin with Kane’s
  original proposal for a silicon quantum computer\, conceived at UNSW in 1
 998\, based on single donor atoms in silicon\, and will review the first\
 ndemonstrations of such qubits\, using both electron spins and nuclear spi
 ns. I then discuss the development of SiMOS quantum dot qubits\, including
  the demonstration of single-electron occupancy\, high-fidelity single-qu
 bit gates\, and the first demonstration of a two-qubit logic gate in sili
 con\, together with the most recent assessments of silicon qubit fideliti
 es. I will also explore the\ntechnical issues related to scaling a silicon
 -CMOS based quantum processor  up to the millions of qubits that will be 
 required for fault-tolerant QC\, including the prospects for operating sil
 icon qubits at temperatures above 1K\, which would open a path to the inte
 gration of conventional CMOS control electronics with the qubit system.
LOCATION:CE 1 3 https://plan.epfl.ch/?room==CE%201%203
STATUS:CONFIRMED
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