The Functional Analysis of Quantum Information Theory
by Ved Prakash Gupta, Prabha Mandayam, V. S. Sunder
Publisher: arXiv 2014
Number of pages: 123
This book is a compilation of notes from a two-week international workshop on the 'The Functional Analysis of Quantum Information Theory'. Contents: Operator Spaces; Entanglement in Bipartite Quantum States; Operator Systems; Quantum Information Theory.
Home page url
Download or read it online for free here:
by Scott Aaronson - University of Waterloo
We'll start out with various scientific problems that predate quantum computing: for example, the measurement problem, P versus NP, the existence of secure cryptography, the Humean problem of induction, or the possibility of closed timelike curves.
by John Preskill - California Institute of Technology
We will study the properties that distinguish quantum information from classical information. And we will see how these properties can be exploited in the design of quantum algorithms that solve certain problems faster than classical algorithms can.
by Eleanor G. Rieffel, Wolfgang Polak - arXiv
This paper will guide computer scientists and other non-physicists through the barriers that separate quantum computing from conventional computing. We introduce basics of quantum mechanics to explain where the power of quantum computers comes from.
by Kazuyuki Fujii - arXiv
The purpose of this paper is to introduce several basic theorems of coherent states and generalized coherent states based on Lie algebras su(2) and su(1,1), and to give some applications of them to quantum information theory for graduate students.