Quantum Simulation Using Noisy Clifford Circuit by Arijeet Pal
Offered By: International Centre for Theoretical Sciences via YouTube
Course Description
Overview
Explore quantum simulation techniques using noisy Clifford circuits in this 42-minute lecture by Arijeet Pal from the International Centre for Theoretical Sciences. Delve into the complexities of periodically and quasi-periodically driven complex systems as part of a comprehensive program covering topics such as terahertz and infrared driven quantum matter, shaken optical lattices and cold atoms, Floquet time crystals, localization-delocalization physics, and dynamics of gauge theories. Gain insights into the interplay between closed quantum systems, open quantum systems, and gauge theory of coupling between matter and radiation. Learn about the challenges of brute force numerical calculations and the importance of quantum simulation experiments in advancing our understanding of complex quantum systems.
Syllabus
Quantum Simulation Using Noisy Clifford Circuit by Arijeet Pal
Taught by
International Centre for Theoretical Sciences
Related Courses
Complete Hilbert Space Ergodicity in Quantum Dynamics of Generalized Fibonacci Drives by Wen Wei HoInternational Centre for Theoretical Sciences via YouTube Floquet Engineering and Topological Nonlinear Optics by Takashi Oka
International Centre for Theoretical Sciences via YouTube Sequential Generation of Highly Entangled States by Sarang Gopalakrishnan
International Centre for Theoretical Sciences via YouTube From Fock-Space Return Probability to Real-Space Spin Autocorrelations by Sthitadhi Roy
International Centre for Theoretical Sciences via YouTube Cavity QED Control of Quantum Materials by Yuto Ashida
International Centre for Theoretical Sciences via YouTube