Geometry of Quantum Correlations - Part II

Explore the fascinating world of quantum correlations in this advanced lecture by Prof. Adam Sawicki from the Center for Theoretical Physics PAS. Delve into the second part of the "Geometry of quantum correlations" series, examining the intriguing phenomenon of quantum entanglement that distinguishes quantum systems from classical ones. Learn how symplectic and algebraic geometry tools can be applied to describe quantum correlations, including the nonlocal properties highlighted by the Einstein-Podolsky-Rosen analysis. Gain insights into the SCREAM project, focusing on Cartan and parabolic geometries, and their applications in various fields such as mechanical systems, integrable systems, and Penrose's Conformal Cyclic Cosmology programme. This 75-minute lecture is part of a bi-weekly seminar series for the Grieg collaboration project, funded by the Norwegian Financial Mechanism 2014-2021.

Prof. Adam Sawicki (Center for Theoretical Physics PAS): Geometry of quantum correlations, part II