Measurement and Feedback-Driven Entanglement Transition
Offered By: International Centre for Theoretical Sciences via YouTube
Course Description
Overview
Explore a 43-minute conference talk on measurement and feedback-driven entanglement transitions presented by Justin H. Wilson at the International Centre for Theoretical Sciences. Delve into cutting-edge research on periodically and quasi-periodically driven complex systems, focusing on the interplay between closed quantum systems, open quantum systems, and gauge theory of coupling between matter and radiation. Gain insights into topics such as terahertz and infrared driven quantum matter, shaken optical lattices, Floquet time crystals, localization-delocalization physics, and dynamics of gauge theories. Learn about the valuable connections between theory and experiment in these fields, and understand the importance of quantum simulation experiments in addressing challenges where brute force numerical calculations fall short.
Syllabus
Measurement and Feedback-driven Entanglement Transition in the... by Justin H. Wilson
Taught by
International Centre for Theoretical Sciences
Related Courses
Sequential Generation of Highly Entangled States by Sarang GopalakrishnanInternational Centre for Theoretical Sciences via YouTube Data Mining the Many-body Problem - From Equilibrium to Driven Systems by Marcello Dalmonte
International Centre for Theoretical Sciences via YouTube Quantum Optimal Transport Through Periodic Driving by Dries Sels
International Centre for Theoretical Sciences via YouTube Spectral Kissing and Its Dynamical Consequences in the Squeeze-Driven Kerr Oscillator by Lea Santos
International Centre for Theoretical Sciences via YouTube Quantum Geometry in Non-Equilibrium Moire Materials by Martin Claassen
International Centre for Theoretical Sciences via YouTube