Explore quantum interactions between atoms and light in this conference talk from the New Perspectives in Many-body Physics with Quantum Optical Systems conference, delivered by Stanford's Benjamin Lev at the Kavli Institute for Theoretical Physics. Delve into cutting-edge experimental platforms including dense atomic media, nanophotonic interfaces, and quantum electrodynamical circuits coupled to superconducting qubits. Examine the unique complexities emerging from engineered light dispersion relations, reduced system dimensionality, and non-perturbative multiple light scattering. Learn about quantum-optical spin glasses and associative memories while gaining insights from this 45-minute presentation that brings together diverse perspectives from experimentalists and researchers in quantum optics, Rydberg atom arrays, ultracold molecules, and superconducting qubits for quantum computing.
Quantum-Optical Spin Glasses and Associative Memories
Kavli Institute for Theoretical Physics via YouTube
Overview
Syllabus
Quantum-Optical Spin Glasses & Associative Memories â–¸ Benjamin Lev (Stanford)
Taught by
Kavli Institute for Theoretical Physics
Related Courses
-
Quantum-to-Classical Crossover in the Spin Glass Dynamics of Cavity QED Simulators
-
Atoms Interlinked by Light - From Quantum Metrology to Topology
-
Many-body Quantum Photonic Systems with Optically Interfaced Semiconductor Spin Qubits in Nonlinear Optical Resonators
-
Rydberg Photonics in Quantum Optical Systems
-
Atomic and Optical Physics II
-
Non-Markovian Open Quantum System - Description and Quasi-Locality Properties
