YoVDO

The Relevance of Being Irrelevant - Stefano Negro

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Integrable Models Courses Condensed Matter Physics Courses String Theory Courses Mathematical Physics Courses Integrable Deformations Courses Integrable Spin-Chains Courses Non-Equilibrium Dynamics Courses

Course Description

Overview

Explore a 51-minute conference talk from the Talking Integrability: Spins, Fields, and Strings conference at KITP, delivered by Stefano Negro from NYU. Delve into the intricacies of integrable models in mathematical physics, condensed-matter physics, and string theory. Discover recent advances in topics such as integrable deformations of CFTs and IQFTs, integrable spin-chains and their non-equilibrium dynamics, and integrable structures on the string worldsheet. Gain insights into the connections between AdS(d+1)/CFT(d) and CFT(2) structures. Benefit from a pedagogical overview of the field, suitable for integrability practitioners from various backgrounds. Examine concepts like quasilocality, ground state motivations, pseudorlink configurations, resonances, bosonic statistics, and central charge. Engage with this comprehensive presentation that brings together researchers from across disciplines to discuss cutting-edge developments in the study of integrable systems.

Syllabus

Table of contents
Challenger
Quasilocality
Citybar
Ground state
Motivations
TBA
Pseudorlink configuration
Two resonances
Infinite resonances
bosonic statistics
conclusion
Central charge
Resonance


Taught by

Kavli Institute for Theoretical Physics

Related Courses

Topology in Condensed Matter: Tying Quantum Knots
Delft University of Technology via edX
Atomic and Optical Physics I– Part 3: Atom-Light Interactions 1 -- Matrix elements and quantized field
Massachusetts Institute of Technology via edX
Atomic and Optical Physics I – Part 5: Coherence
Massachusetts Institute of Technology via edX
Atomic and Optical Physics: Quantum States and Dynamics of Photons
Massachusetts Institute of Technology via edX
Atomic and Optical Physics: Atom-photon interactions
Massachusetts Institute of Technology via edX