Title from publisher's bibliographic system (viewed on 05 Oct 2015).

No-cloning in categorical quantum mechanics / Samson Abramsky -- Classical and quantum structuralism / Bob Coecke, Éric Oliver Paquette, and Dusko Pavlovic -- Generalized proof-nets for compact categories with biproducts / Ross Duncan --Quantum lambda calculus / Peter Selinger and Benoît Valiron -- The quantum IO monad / Thorsten Altenkirch and Alexander S. Green -- Abstract interpretation techniques for quantum computation / Philippe Jorrand and Simon Perdrix -- Extended measurement calculus / Cincent Danos [and others] -- Predicate transformer semantics of quantum programs / Minsheng Ying [and others] -- The structure of partial isometries / Peter Hines and Samuel L. Braunstein -- Temporal logics for reasoning about quantum systems / Paulo Mateus [and others] -- Specification and verification of quantum protocols / Simon J. Gay, Rajagopal Nagarajan, and Nikolaos Papanikolaou.

The study of computational processes based on the laws of quantum mechanics has led to the discovery of new algorithms, cryptographic techniques, and communication primitives. This book explores quantum computation from the perspective of the branch of theoretical computer science known as semantics, as an alternative to the more well-known studies of algorithmics, complexity theory, and information theory. It collects chapters from leading researchers in the field, discussing the theory of quantum programming languages, logics and tools for reasoning about quantum systems, and novel approaches to the foundations of quantum mechanics. This book is suitable for graduate students and researchers in quantum information and computation, as well as those in semantics, who want to learn about a new field arising from the application of semantic techniques to quantum information and computation.