Topological Phases of Matter - From the Quantum Hall Effect to Spin Liquids

Explore the fascinating world of topological phases of matter through this comprehensive lecture series spanning quantum Hall effects to spin liquids. Delve into cutting-edge research presented by leading physicists from Harvard, Boston University, Max Planck Institute, and other prestigious institutions as they examine competing quantum orders, phase transitions, and symmetry-protected criticality. Investigate chiral topological spin liquids, frustrated magnetism, and topological insulators while learning about advanced computational methods including path-integral Monte Carlo simulations and tensor network approaches. Discover the 16-fold way in the Kitaev honeycomb model, symmetry-based indicators of band topology, and emergent gauge theories from coupled wire arrays. Examine quantum spin liquids beyond the kagome lattice, variational approaches to chiral topological order interfaces, and spectral signatures of fractionalization. Study the quantum Hall hierarchy, emergent SU(4) symmetry in quantum spin-orbital liquids, and topological chiral spin liquids on square lattices using infinite projected entangled pair states (iPEPS) methods. Gain insights into Josephson relations for fractional quantum Hall effect charges, broken symmetries near topological phase transitions, and the topography of quantum many-body systems on triangular lattices.

Syllabus

Ashvin Vishwanath (Harvard University) Unifying Competing Orders ....
Anders Sandvik Boston University Exploring new quantum phase transitions with J Q models
Chang Tse Hsieh KIPMU, Kashiwa Anomaly matching and symmetry protected criticality in 1d quantum man
Antoine Sterdyniak (Max Planck Inst) Symmetries of chiral topological spin liquid PEPS
Pierre Pujol : From frustrated magnetism to "spontaneous'' and "switchable'' topological insulators
Alexander Chernyshev (University of California)Topography and mimicry on a triangular lattice
Csaba Toke : Path-integral Monte Carlo simulation of systems in a magnetic field
Christian Glattli : (SPEC) A Josephson relation for FQHE fractional charges
A. MacDonald: Broken Symmetries near Topological Insulator/ Normal Insulator Phase Transitions
Jean-Noël Fuchs ( LPTMC)16-fold way in the Kitaev honeycomb model
Haruki Watanabe (2018) Symmetry-based indicators of band topology
Steve Simon (2018) Topologically Ordered Matter and Why You Should be Interested
K.Totsuka Emergent gauge theories from a coupled array of wires...(cf suite)
Yohei Fuji (Riken) Quantum Hall hierarchy from coupled wires
Fabrice Bert (LPS Orsay) Quantum spin liquids: beyond the kagome lattice
B. Estienne (LPTHE, Paris) A variational Approach to Chiral Topological Order Interfaces
M. Yamada (ISSP, Tokyo) Emergent SU(4) symmetry and quantum spin-orbital liquid in α-ZrCl₃
F.Becca : Spectral signatures of fractionalization (full title in description )
D. Poilblanc (Toulouse) : Topological chiral spin liquids on the square lattice with iPEPS