Quantum Computing

Name: Quantum Computing
Brand: Taylor & Francis Ltd
SKU: 9780750309837
Price: 235.6 EUR
Availability: InStock

★★★★★

€235.60

Product variants

A01=Mikio Nakahara

A01=Tetsuo Ohmi

advanced quantum mechanics

algorithm

Author_Mikio Nakahara

Author_Tetsuo Ohmi

basis

Bloch Sphere

Category=UYA

Charge Qubit

circuit

cnot

CNOT Gate

criteria

decoherence mitigation

Density Matrix

divincenzo

DiVincenzo Criteria

eq_bestseller

eq_computing

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

experimental quantum computing applications

gate

Gate Voltage

Grover's Search Algorithm

Grover’s Search Algorithm

hadamard

Hadamard Gate

Hilbert Space

Josephson Junction

Liquid State NMR

neutral atom qubits

Optical Dipole Trap

Quantum Algorithm

Quantum Circuit

Quantum Computer

Quantum Computing

quantum dot technology

quantum error correction

Quantum Gates

Quantum Key Distribution

qubit

Qubit State

Rabi Oscillation

Shor's Factorization Algorithm

Shor’s Factorization Algorithm

Single Qubit Gates

Swap Gate

Tensor Product State

trapped ion systems

vectors

Walsh Hadamard Transformation

Product details

ISBN 9780750309837
Weight: 620g
Dimensions: 156 x 234mm
Publication Date: 11 Mar 2008
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Hardback

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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 focused on several candidates of a working quantum computer, evaluating them according to the DiVincenzo criteria.

Topics in Part I

Linear algebra
Principles of quantum mechanics
Qubit and the first application of quantum information processing—quantum key distribution
Quantum gates
Simple yet elucidating examples of quantum algorithms
Quantum circuits that implement integral transforms
Practical quantum algorithms, including Grover’s database search algorithm and Shor’s factorization algorithm
The disturbing issue of decoherence
Important examples of quantum error-correcting codes (QECC)

Topics in Part II

DiVincenzo criteria, which are the standards a physical system must satisfy to be a candidate as a working quantum computer
Liquid state NMR, one of the well-understood physical systems
Ionic and atomic qubits
Several types of Josephson junction qubits
The quantum dots realization of qubits

Looking at the ways in which quantum computing can become reality, this book delves into enough theoretical background and experimental research to support a thorough understanding of this promising field.