Integrable Quantum Circuits from Statistical Mechanics
Offered By: Galileo Galilei Institute via YouTube
Course Description
Overview
Explore the fascinating intersection of quantum physics and statistical mechanics in this 23-minute lecture on integrable quantum circuits. Delve into the fundamental concepts of out-of-equilibrium physics in quantum many-body systems and quantum integrability. Discover how recent research utilizes methods from statistical mechanics of lattice models, including Yang-Baxter relation and star-triangle relation, to construct integrable quantum circuits. Learn about key topics such as solvable models, integrability, tensorization, transfer matrices, and time evolution operators. Gain insights into the theoretical foundations and practical applications of this cutting-edge field, presented by Yuan Miao at the Galileo Galilei Institute.
Syllabus
Introduction
Motivation
solvable models
integrability
tensorization
transfer matrices
theorem
Time Evolution Example
Time Evolution Operator
Conclusion
Taught by
Galileo Galilei Institute
Related Courses
Quantum Information Science II: Efficient Quantum Computing - fault tolerance and complexityMassachusetts Institute of Technology via edX Physical Basics of Quantum Computing
Saint Petersburg State University via Coursera Fundamentals of Quantum Information
Delft University of Technology via edX QC101 Quantum Computing & Intro to Quantum Machine Learning
Udemy Quantum Computing with Qiskit Ultimate Masterclass
Udemy