Cham : , : Springer International Publishing : , : Imprint : Springer, , 2017

3-319-63206-X

1 online resource (IX, 119 p. 18 illus., 3 illus. in color.)

Lecture Notes in Mathematics, , 0075-8434 ; ; 2189

515.7

Functional analysis

Quantum physics

Probabilities

Convex geometry 

Discrete geometry

Functional Analysis

Quantum Physics

Probability Theory and Stochastic Processes

Convex and Discrete Geometry

Inglese

1 Introduction -- 2 Free Probability and Non-Commutative Symmetries -- 3 Quantum Symmetry Groups and Related Topics -- 4 Quantum Entanglement in High Dimensions -- References -- Index.

Providing an introduction to current research topics in functional analysis and its applications to quantum physics, this book presents three lectures surveying recent progress and open problems.  A special focus is given to the role of symmetry in non-commutative probability, in the theory of quantum groups, and in quantum physics. The first lecture presents the close connection between distributional symmetries and independence properties. The second introduces many structures (graphs, C*-algebras, discrete groups) whose quantum symmetries are much richer than their classical symmetry groups, and describes the associated quantum symmetry groups. The last lecture shows how functional analytic and geometric ideas can be used to

detect and to quantify entanglement in high dimensions.  The book will allow graduate students and young researchers to gain a better understanding of free probability, the theory of compact quantum groups, and applications of the theory of Banach spaces to quantum information. The latter applications will also be of interest to theoretical and mathematical physicists working in quantum theory.