YoVDO

Entanglement Entropy at Deconfined and Gross-Neveu Quantum Critical Points

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Quantum Physics Courses Condensed Matter Physics Courses Theoretical Physics Courses Numerical Simulations Courses Entanglement Entropy Courses Quantum Many-body Systems Courses Conformal Field Theory Courses Conformal Bootstrap Courses Strongly Correlated Systems Courses Quantum Spin Liquid Courses Quantum Critical Points Courses

Course Description

Overview

Save Big on Coursera Plus. 7,000+ courses at $160 off. Limited Time Only!
Explore a 46-minute conference talk on entanglement entropy at deconfined and Gross-Neveu quantum critical points, presented by Jonathan D'emidio from DIPC. Delve into cutting-edge research on strongly correlated gapless quantum many-body systems as part of the "Theories, Experiments and Numerics on Gapless Quantum Many-body Systems" conference at the Kavli Institute for Theoretical Physics. Gain insights into topics such as deconfined quantum critical points, quantum spin liquids, non-Fermi liquids, generalized symmetries, anomalies, dualities, and SYK physics. Discover how this talk contributes to resolving discrepancies in numerical simulations, conformal bootstrap, and theoretical efforts, while fostering collaboration between condensed matter experimentalists and theorists.

Syllabus

Entanglement entropy at deconfined & Gross-Neveu quantum critical points ▸ Jonathan D'emidio (DIPC)


Taught by

Kavli Institute for Theoretical Physics

Related Courses

Quantum Phases of Matter - Non-perturbative Luttinger Relations
International Centre for Theoretical Sciences via YouTube
News on Tensor Network Simulations for Quantum Matter and Beyond
Institute for Pure & Applied Mathematics (IPAM) via YouTube
Field-Induced Phenomena and Fermi Surfaces in Strongly Correlated Spin-Triplet Superconductor UTe2
Kavli Institute for Theoretical Physics via YouTube
Superconductivity in Strongly Correlated Systems and Flat-Bands - Bounds
Kavli Institute for Theoretical Physics via YouTube
Numerical Studies of Strongly Correlated Systems - Beating the Exponential Growth in Computation Time
APS Physics via YouTube