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Introduction to quantum computing

LaPierre, Ray.

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Introduction to quantum computing

Record Type:	Electronic resources : Monograph/item
Title/Author:	Introduction to quantum computing/ by Ray LaPierre.
Author:	LaPierre, Ray.
Published:	Cham :Springer International Publishing : : 2021.,
Description:	xvi, 366 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Chapter 1: Superposition -- Chapter 2: Quantization -- Chapter 3: Spin -- Chapter 4: Qubits -- Chapter 5: Entanglement -- Chapter 6: Quantum Key Distribution -- Chapter 7: Quantum Gates -- Chapter 8: Teleportation -- Chapter 10: Computational Complexity -- Chapter 11: Deutsch Algorithm -- Chapter 12: Grover Algorithm -- Chapter 13: Shor Algorithm -- Chapter 14: Physical Implementation of Single-Qubit Gates -- Chapter 15: Electron Spin Resonance -- Chapter 16: Two-state Dynamics -- Chapter 17: Physical Implementation of Two-qubit Gates -- Chapter 18: DiVincenzo Criteria -- Chapter 19: Nuclear Magnetic Resonance -- Chapter 20: Solid-state Spin Qubits -- Chapter 21: Trapped Ion Quantum Computing -- Chapter 22: Superconducting Qubits -- Chapter 23: Adiabatic Quantum Computing -- Chapter 24: Optical Quantum Computing -- Chapter 25: Quantum Error Correction -- Chapter 26: Topological Quantum Computing.
Contained By:	Springer Nature eBook
Subject:	Quantum theory. -
Online resource:	https://doi.org/10.1007/978-3-030-69318-3
ISBN:	9783030693183

Introduction to quantum computing
LaPierre, Ray.

Introduction to quantum computing[electronic resource] /by Ray LaPierre. - Cham :Springer International Publishing :2021. - xvi, 366 p. :ill. (some col.), digital ;24 cm. - The materials research society series,2730-7379. - Materials research society series..

Chapter 1: Superposition -- Chapter 2: Quantization -- Chapter 3: Spin -- Chapter 4: Qubits -- Chapter 5: Entanglement -- Chapter 6: Quantum Key Distribution -- Chapter 7: Quantum Gates -- Chapter 8: Teleportation -- Chapter 10: Computational Complexity -- Chapter 11: Deutsch Algorithm -- Chapter 12: Grover Algorithm -- Chapter 13: Shor Algorithm -- Chapter 14: Physical Implementation of Single-Qubit Gates -- Chapter 15: Electron Spin Resonance -- Chapter 16: Two-state Dynamics -- Chapter 17: Physical Implementation of Two-qubit Gates -- Chapter 18: DiVincenzo Criteria -- Chapter 19: Nuclear Magnetic Resonance -- Chapter 20: Solid-state Spin Qubits -- Chapter 21: Trapped Ion Quantum Computing -- Chapter 22: Superconducting Qubits -- Chapter 23: Adiabatic Quantum Computing -- Chapter 24: Optical Quantum Computing -- Chapter 25: Quantum Error Correction -- Chapter 26: Topological Quantum Computing.

This book provides a self-contained undergraduate course on quantum computing based on classroom-tested lecture notes. It reviews the fundamentals of quantum mechanics from the double-slit experiment to entanglement, before progressing to the basics of qubits, quantum gates, quantum circuits, quantum key distribution, and some of the famous quantum algorithms. As well as covering quantum gates in depth, it also describes promising platforms for their physical implementation, along with error correction, and topological quantum computing. With quantum computing expanding rapidly in the private sector, understanding quantum computing has never been so important for graduates entering the workplace or PhD programs. Assuming minimal background knowledge, this book is highly accessible, with rigorous step-by-step explanations of the principles behind quantum computation, further reading, and end-of-chapter exercises, ensuring that undergraduate students in physics and engineering emerge well prepared for the future.

ISBN: 9783030693183

Standard No.: 10.1007/978-3-030-69318-3doiSubjects--Topical Terms:

516552
Quantum theory.

LC Class. No.: QC174.12 / .L36 2021

Dewey Class. No.: 530.12

Introduction to quantum computing
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100 1 $a LaPierre, Ray. $3 3518656
245 1 0 $a Introduction to quantum computing $h [electronic resource] / $c by Ray LaPierre.
260 $a Cham : $b Springer International Publishing : $b Imprint: Springer, $c 2021.
300 $a xvi, 366 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a The materials research society series, $x 2730-7379
505 0 $a Chapter 1: Superposition -- Chapter 2: Quantization -- Chapter 3: Spin -- Chapter 4: Qubits -- Chapter 5: Entanglement -- Chapter 6: Quantum Key Distribution -- Chapter 7: Quantum Gates -- Chapter 8: Teleportation -- Chapter 10: Computational Complexity -- Chapter 11: Deutsch Algorithm -- Chapter 12: Grover Algorithm -- Chapter 13: Shor Algorithm -- Chapter 14: Physical Implementation of Single-Qubit Gates -- Chapter 15: Electron Spin Resonance -- Chapter 16: Two-state Dynamics -- Chapter 17: Physical Implementation of Two-qubit Gates -- Chapter 18: DiVincenzo Criteria -- Chapter 19: Nuclear Magnetic Resonance -- Chapter 20: Solid-state Spin Qubits -- Chapter 21: Trapped Ion Quantum Computing -- Chapter 22: Superconducting Qubits -- Chapter 23: Adiabatic Quantum Computing -- Chapter 24: Optical Quantum Computing -- Chapter 25: Quantum Error Correction -- Chapter 26: Topological Quantum Computing.
520 $a This book provides a self-contained undergraduate course on quantum computing based on classroom-tested lecture notes. It reviews the fundamentals of quantum mechanics from the double-slit experiment to entanglement, before progressing to the basics of qubits, quantum gates, quantum circuits, quantum key distribution, and some of the famous quantum algorithms. As well as covering quantum gates in depth, it also describes promising platforms for their physical implementation, along with error correction, and topological quantum computing. With quantum computing expanding rapidly in the private sector, understanding quantum computing has never been so important for graduates entering the workplace or PhD programs. Assuming minimal background knowledge, this book is highly accessible, with rigorous step-by-step explanations of the principles behind quantum computation, further reading, and end-of-chapter exercises, ensuring that undergraduate students in physics and engineering emerge well prepared for the future.
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650 0 $a Quantum computing. $3 2115803
650 1 4 $a Quantum Computing. $3 1620399
650 2 4 $a Materials Science, general. $3 927806
650 2 4 $a Electronics and Microelectronics, Instrumentation. $3 893838
650 2 4 $a Quantum Physics. $3 893952
650 2 4 $a Theory of Computation. $3 892514
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830 0 $a Materials research society series. $3 3518657
856 4 0 $u https://doi.org/10.1007/978-3-030-69318-3
950 $a Physics and Astronomy (SpringerNature-11651)