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UID:UW-Physics-Event-4283
DTSTART:20161110T160000Z
DURATION:PT1H0M0S
DTSTAMP:20260419T060352Z
LAST-MODIFIED:20161108T122919Z
LOCATION:5310 Chamberlin Hall
SUMMARY:Quantum FM radio for Quantum Computing\, R. G. Herb Condensed 
 Matter Seminar\, David Schuster\, University of Chicago
DESCRIPTION:Individual superconducting qubits have seen impressive imp
 rovements in<br>
\nnearly all aspects over the past decade and now sit
  at the threshold<br>
\nof being able to perform quantum error correct
 ion.  Scaling to larger<br>
\nnumbers of qubits is challenging both in
  the fundamental aspects of<br>
\nunderstanding the behavior of large 
 numbers of strongly coupled qubits<br>
\nand in the technical aspects 
 of controlling such systems. We take a<br>
\nunique approach in which 
 we use a superconducting qubit as a quantum<br>
\nFM radio manipulate 
 individual photons in a array of harmonic<br>
\noscillators.  This all
 ows control with a single qubit's worth of<br>
\nclassical hardware an
 d simplifies the process of designing and<br>
\nbuilding large devices
 .  Further\, these techniques are compatible with<br>
\ncurrent brute 
 force scaling efforts and represent a promising avenue<br>
\nto reach 
 hundreds of qubits in the next several years.  In this talk\,<br>
\nI 
 will describe the architecture and show how parametric control can<br>
 
\nbe used to realize universal quantum logic operations between<br>
\
 narbitrary memory modes
URL:https://www.physics.wisc.edu/events/?id=4283
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