Brian Swingle Explores Complexity, Quantum Field Theory & Black Holes π
Join physicist Brian Swingle as he delves into the fascinating connections between computational complexity, quantum field theory, and black holes during the 2017 workshop hosted by the Joint Center for Quantum Science.
QuICS
611 views β’ Aug 24, 2017
About this video
A talk by Brian Swingle at the Workshop on Computational Complexity and High Energy Physics, hosted July 31 to August 2, 2017 by the Joint Center for Quantum Information and Computer Science at the University of Maryland.
Abstract: Recent progress in understanding the physics of quantum information has led to novel methods to simulate quantum physics on existing classical computers and on future quantum computers. Crucial to these developments are operational procedures to prepare interesting quantum states, especially procedures that make efficient use of scarce quantum resources. I review recent progress in constructing tensor networks which capture the physics of a wide variety of low temperature quantum states of matter. Then I discuss work in progress showing how these classical simulations may be enhanced and rendered practical using near- to medium-term noisy quantum devices.
Abstract: Recent progress in understanding the physics of quantum information has led to novel methods to simulate quantum physics on existing classical computers and on future quantum computers. Crucial to these developments are operational procedures to prepare interesting quantum states, especially procedures that make efficient use of scarce quantum resources. I review recent progress in constructing tensor networks which capture the physics of a wide variety of low temperature quantum states of matter. Then I discuss work in progress showing how these classical simulations may be enhanced and rendered practical using near- to medium-term noisy quantum devices.
Video Information
Views
611
Duration
43:10
Published
Aug 24, 2017
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