An Effective Field Theory for Holographic Random Matchgate Tensor Networks
Offered By: Erwin Schrödinger International Institute for Mathematics and Physics (ESI) via YouTube
Course Description
Overview
Explore an in-depth analysis of matchgate tensor networks in this comprehensive lecture from the Thematic Programme on "Tensor Networks: Mathematical Structures and Novel Algorithms." Delve into the Hamiltonian description of 2D matchgates tensor networks with open physical boundaries, and uncover the analytical understanding of a previously numerically observed phase transition. Examine the fascinating correspondence between a many-body topological phase transition in a Z_2 gauge theory (toric code) and a topological single-particle transition in a class D superconductor. Further investigate random matchgate tensor networks and learn about the conditions under which an ensemble of tensor networks can be described by a non-linear super matrix model. Gain valuable insights into advanced concepts in quantum physics and tensor network theory throughout this 75-minute presentation.
Syllabus
Carolin Wille - An effective field theory for (holographic) random matchgate tensor networks
Taught by
Erwin Schrödinger International Institute for Mathematics and Physics (ESI)
Related Courses
Operator Algebras, Bi-Unitary Connections and Tensor Networks - Lecture 1BIMSA via YouTube Operator Algebras, Bi-Unitary Connections and Tensor Networks - Lecture 2
BIMSA via YouTube Operator Algebras, Bi-Unitary Connections and Tensor Networks - Lecture 4
BIMSA via YouTube Entanglement Transitions in Tree Tensor Networks
Erwin Schrödinger International Institute for Mathematics and Physics (ESI) via YouTube Optimization at the Boundary of the Tensor Network Variety
Centre de recherches mathématiques - CRM via YouTube