Principles of Quantum Computation and Information:A Comprehensive Textbook, 2nd Edition

by Davide Rossini, Giuliano Benenti, Giuliano Strini, Giulio Casati

Length:704 pages

Edition 版次：2

Language 语言：English

Publisher Finelybook 出版社：World Scientific Publishing Co

Release Finelybook 出版日期：2019-01-09

ISBN-10 书号：9813237228

ISBN-13 书号：9789813237223**Book Description**

Quantum computation and information is a rapidly developing interdisciplinary field. It is not easy to understand its fundamental concepts and central results without facing numerous technical details. This book provides the reader with a useful guide. In particular, the initial chapters offer a simple and self-contained introduction; no previous knowledge of quantum mechanics or classical computation is required.

Various important aspects of quantum computation and information are covered in depth, starting from the foundations (the basic concepts of computational complexity, energy, entropy, and information, quantum superposition and entanglement, elementary quantum gates, the main quantum algorithms, quantum teleportation, and quantum cryptography) up to advanced topics (like entanglement measures, quantum discord, quantum noise, quantum channels, quantum error correction, quantum simulators and tensor networks).

It can be used as a broad range textbook for a course in quantum information and computation, both for upper-level undergraduate students and for graduate students. It contains a large number of solved exercises, which are an essential complement to the text, as they will help the student to become familiar with the subject. The book may also be useful as general education for readers who want to know the fundamental principles of quantum information and computation and who have the basic background acquired from their undergraduate course in physics, mathematics, or computer science, as well as for researchers interested in some of the latest spin-off of the field, including the use of quantum information in the theories of many-body systems.

Readership:Upper-level undergraduates and graduate students in physics, mathematics and computer science.

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