6 edition of **Physical Realizations of Quantum Computing** found in the catalog.

- 259 Want to read
- 7 Currently reading

Published
**March 9, 2006**
by World Scientific Publishing Company
.

Written in English

- General Theory of Computing,
- Science/Mathematics,
- Computer Science,
- Science,
- Quantum Theory,
- Congresses,
- Quantum computers

**Edition Notes**

Contributions | Mikio Nakahara (Editor), Shigeru Kanemitsu (Editor), Martti M. Salomaa (Editor), Shin Takagi (Editor) |

The Physical Object | |
---|---|

Format | Hardcover |

Number of Pages | 248 |

ID Numbers | |

Open Library | OL9197334M |

ISBN 10 | 981256473X |

ISBN 10 | 9789812564733 |

QVZFV4T4PWMW Doc \\ Quantum Computing: From Linear Algebra to Physical Realizations Quantum Computing: From Linear Algebra to Physical Realizations Filesize: MB Reviews Extremely helpful for all class of folks. I really could comprehended almost everything using this written e publication. These lecture notes were formed in small chunks during my \Quantum computing" course at the University of Amsterdam, Feb-May , and compiled into one text thereafter. Each chapter was covered in a lecture of 2 45 minutes, with an additional minute lecture for exercises and Size: 1MB.

Quantum computing: From linear algebra to physical realizations Mikio Nakahara, Tetsuo Ohmi Covering both theory and progressive experiments, Quantum Computing: From Linear Algebra to Physical Realizations explains how and why superposition and entanglement provide the enormous computational power in quantum computing. DOI: / Corpus ID: Quantum Computing - From Linear Algebra to Physical Realizations @inproceedings{NakaharaQuantumC, title={Quantum Computing - From Linear Algebra to Physical Realizations}, author={Mikio Nakahara and Tetsuo Ohmi}, year={} }.

Physical Realizations of Quantum Computing. By Mikio including nuclear magnetic resonance, Josephson junctions, quantum dots, and trapped ions. There are also some theoretical contributions which have relevance in the physical realizations of a quantum computer. This book fills the gap between elementary introductions to the subject and. 3 Quantum Algorithms and Applications. A bedrock of the field of algorithms lies in the principle that the total number of computational steps required to solve a problem is (roughly) independent of the underlying design of the computer—remarkably, to a first approximation what is designated a single step of computation is a matter of convenience and does not change the total time to solution.

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Covering both theory and progressive experiments, Quantum Computing: From Linear Algebra to Physical Realizations explains how and why superposition and entanglement provide the enormous computational power in quantum by: Quantum Computing: From Linear Algebra to Physical Realizations - Kindle edition by Nakahara, Mikio, Ohmi, Tetsuo.

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There are also some theoretical contributions which have relevance in the physical realizations of a quantum computer. This book fills the gap between elementary introductions to the subject and highly specialized research papers to allow beginning graduate students to understand the cutting-edge of research in the shortest possible time.

Covering both theory and progressive experiments, Quantum Computing: From Linear Algebra to Physical Realizations explains how and why superposition and entanglement provide the enormous computational power in quantum computing.

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Covering both theory and progressive experiments, Quantum Computing: From Linear Algebra to Physical Realizations explains how and why superposition and entanglement provide the enormous computational power in quantum computing.

This self-contained, classroom-tested book is divided into two sections, with the first devoted to the theoretical aspects of quantum computing and the second. Quantum computing is the use of quantum-mechanical phenomena such as superposition and entanglement to perform ers that perform quantum computation are known as quantum computers.: I-5 Quantum computers are believed to be able to solve certain computational problems, such as integer factorization (which underlies RSA encryption), significantly faster than.

Covering both theory and progressive experiments, Quantum Computing: From Linear Algebra to Physical Realizations explains how and why superposition and entanglement provide the enormous computational power in quantum computing.

This self-contained, classroom-tested book is divided into two sections, with the first devoted to the theoretical aspects of quantum computing and 5/5(1). There are also some theoretical contributions which have relevance in the physical realizations of a quantum computer. This book fills the gap between elementary introductions to the subject and highly specialized research papers to allow beginning graduate students to understand the cutting-edge of r.

QUANTUM COMPUTING From Linear Algebra to Physical Realizations Mikio Nakahara Department of Physics Kinki University, Higashi-Osaka, Japan Tetsuo Ohmi Interdisciplinary Graduate School of Science and Engineering Kinki University, Higashi-Osaka, Japan A TAYLOR & FRANCIS BOOK CRC Press is an imprint of the Taylor & Francis Group, an informa business.

Get this from a library. Quantum Computing: From Linear Algebra to Physical Realizations. [Mikio Nakahara] -- With derivations, exercises, and solutions, this book examines the theoretical aspects of quantum computing and focuses on several candidates of a.

This book was set in Syntax and Times Roman by Westchester Book Group. Printed and bound in the United States of America. Library of Congress Cataloging-in-Publication Data Rieffel, Eleanor, – Quantum computing: a gentle introduction / Eleanor Rieffel and Wolfgang Polak. cm.—(Scientiﬁc and engineering computation)File Size: 6MB.

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