Classical Simulation of Quantum Many-body Systems with Tensor Networks
Offered By: Simons Institute via YouTube
Course Description
Overview
Explore the cutting-edge field of quantum many-body systems simulation using tensor networks in this 45-minute lecture by Glen Evenbly from the University of Sherbrooke. Delve into the challenges of quantum computation, starting with an introduction to quantum simulators and the many-electron problem. Gain insights into quantum systems and learn about tensor networks, including matrix product states and the branching mirror technique. Discover practical applications and understand the dynamics of these complex systems. Conclude with a comprehensive summary of the latest advancements in classical simulation of quantum phenomena.
Syllabus
Introduction
Quantum Simulators
Many Electron Problem
Quantum Systems
Tensor Networks
Matrix Product State
Branching Mirror
Practice
Summary
Dynamics
Taught by
Simons Institute
Related Courses
Quantum Circuits, Cellular Automata and Tensor Networks - Ignacio CiracInstitute for Advanced Study via YouTube Tensor Networks and Neural Network States - From Chiral Topological Order to Image Classification
APS Physics via YouTube Bridging Deep Learning and Many-Body Quantum Physics via Tensor Networks
APS Physics via YouTube Tensor Networks -QC-DMRG- in a Complete Active Space Coupled Cluster Method
Institute for Pure & Applied Mathematics (IPAM) via YouTube Arithmetic Tensor Networks and Integration - IPAM at UCLA
Institute for Pure & Applied Mathematics (IPAM) via YouTube