A General Introduction to Quantum Tomography and a Specialized Report on Property Testing
Offered By: Simons Institute via YouTube
Course Description
Overview
Explore quantum tomography and property testing in this comprehensive lecture from the Simons Institute. Delve into the design and estimation problems of quantum protocols, examining local asymptotic normality, compressed sensing, and projected least squares. Investigate testing under symmetry, Schur-Weyl duality, and the Clifford group. Learn about stochastic orthogonal transformations, stabilizer testing, and the exponential de Finetti theorem. Gain insights into quantum homeopathy and future perspectives in the field. Presented by David Gross from the University of Cologne, this talk offers a deep dive into advanced quantum concepts and their applications in testing and quantum PCPs.
Syllabus
Intro
What's the point?
The design problem
The estimation problem
1/4 Local asymptotic normality
3/ 4 Compressed Sensing
4/4 Projected Least Squares
Summary
Testing under symmetry
Schur-Weyl duality 2: Transversality
Clifford group, prior results
Statement of main result
Stochastic orthogonal transformations
Stabilizer testing
exponential de Finetti
Quantum Homeopathy
Outlook
Taught by
Simons Institute
Related Courses
MIP Equals RE - Putting Everything TogetherSimons Institute via YouTube Making the Leap to Quantum PCPs - IPAM at UCLA
Institute for Pure & Applied Mathematics (IPAM) via YouTube A Quantum Complexity Approach to the Problem of Weak Cosmic Censorship
Simons Institute via YouTube Quantum Computational Advantage With Constant-Temperature Gibbs Sampling
Simons Institute via YouTube Expansion of Higher-Dimensional Cubical Complexes with Application to Good Quantum Locally Testable Codes
Simons Institute via YouTube