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Description

A scalable quantum computer will require quantum operations with vanishingly small error. Fault-tolerant quantum computation is a method to reach arbitrarily small error rates and is based on quantum error correction. In this talk, I will introduce the basics of quantum error correction and compare it with classical error correction. I will relate classical and quantum error correction models to different spin Hamiltonians. Finally, I will discuss the prospects of performing quantum error correction in trapped ions and present experimental results on quantum error detection codes with trapped ions.

Details

Title
Detecting and Correcting Quantum Error
Creator
University of California, Berkeley. Dept. of Physics
Published
Berkeley, CA, University of California, Berkeley, Dept. of Physics, March 5, 2018
Link to Content
UC Berkeley Library Online Video Collection.
Full Collection Name
Physics Colloquia
Type
Video
Format
Lecture.
Extent
1 streaming video file
Other Physical Details
digital, sd., col.
Archive
Physics Library
Note
Recorded at a colloquium held on March 5, 2018, sponsored by the Dept. of Physics, University of California, Berkeley.
originally produced as an .mts file in 2018
Speakers: Kenneth Brown.
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