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A first introduction to quantum computing and information

Record Type:	Language materials, printed : Monograph/item
Title/Author:	A first introduction to quantum computing and information/ by Bernard Zygelman.
Author:	Zygelman, Bernard.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xviii, 279 p. :ill. (some col.), digital ; : 24 cm.;
Contained By:	Springer Nature eBook
Subject:	Quantum computing - Popular works. -
Online resource:	https://doi.org/10.1007/978-3-031-66425-0
ISBN:	9783031664250

A first introduction to quantum computing and information
Zygelman, Bernard.

A first introduction to quantum computing and information[electronic resource] /by Bernard Zygelman. - Second edition. - Cham :Springer Nature Switzerland :2025. - xviii, 279 p. :ill. (some col.), digital ;24 cm. - Undergraduate topics in computer science,2197-1781. - Undergraduate topics in computer science..

1. A Quantum Mechanic's Toolbox -- 2. Apples and Oranges: Matrix Representations -- 3. Circuit Model of Computation -- 4. Quantum Killer Apps: Quantum Fourier Transform and Search Algorithms -- 5. Quantum Mechanics According to Martians: Density Matrix Theory -- 6. No-Cloning Theorem, Quantum Teleportation and Spooky Correlations -- 7. Quantum Hardware I: Ion Trap qubits -- 8. Quantum Hardware II: cQED and cirQED -- 9. Errare Computatrum Est: Quantum Error Correction.

This unique textbook addresses and introduces new developments in the field of quantum information and computing (QIC) for a primary audience of undergraduate students. Developments over the past few decades have spurred the need for QIC courseware at major research institutions. To address this, the present 2nd edition of a highly accessible textbook/reference broadens the exposure of QIC science for the undergraduate market. The subject matter is introduced in such a way so that it is accessible to students with only a first-year calculus background. Greater accessibility allows a broader range of academic offerings. Topics and features: Introduces beginning undergraduate students to quantum theory and developments in QIC, without exposure to upper-level physics and mathematics Contains a new chapter on Adiabatic Quantum Computing Integrates Mathematica-based software examples and projects, which offers a "hands-on" experience and facilitates navigation of difficult abstract concepts Offers helpful links to additional exercises, problems, and solution manuals Facilitates a more holistic approach to the teaching of difficult concepts, incorporating symbolic manipulation software Provides new material on Quantum Error Correction Allows a broad-range of course offerings spanning physics, engineering, math and computer science This unique introductory textbook can serve courses offered in university physics, engineering, math, and definitely computer science departments. Use of Mathematica software allows a fast learning curve for students who have limited experience with scientific programming. Bernard Zygelman is a professor of physics at the University of Nevada, Las Vegas, US. For more than a decade, he has developed and taught quantum computing and information courseware at both the graduate and undergraduate level.

ISBN: 9783031664250

Standard No.: 10.1007/978-3-031-66425-0doiSubjects--Topical Terms:

1211897
Quantum computing
--Popular works.

LC Class. No.: QA76.889 / .Z94 2025

Dewey Class. No.: 006.3843

A first introduction to quantum computing and information
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520 $a This unique textbook addresses and introduces new developments in the field of quantum information and computing (QIC) for a primary audience of undergraduate students. Developments over the past few decades have spurred the need for QIC courseware at major research institutions. To address this, the present 2nd edition of a highly accessible textbook/reference broadens the exposure of QIC science for the undergraduate market. The subject matter is introduced in such a way so that it is accessible to students with only a first-year calculus background. Greater accessibility allows a broader range of academic offerings. Topics and features: Introduces beginning undergraduate students to quantum theory and developments in QIC, without exposure to upper-level physics and mathematics Contains a new chapter on Adiabatic Quantum Computing Integrates Mathematica-based software examples and projects, which offers a "hands-on" experience and facilitates navigation of difficult abstract concepts Offers helpful links to additional exercises, problems, and solution manuals Facilitates a more holistic approach to the teaching of difficult concepts, incorporating symbolic manipulation software Provides new material on Quantum Error Correction Allows a broad-range of course offerings spanning physics, engineering, math and computer science This unique introductory textbook can serve courses offered in university physics, engineering, math, and definitely computer science departments. Use of Mathematica software allows a fast learning curve for students who have limited experience with scientific programming. Bernard Zygelman is a professor of physics at the University of Nevada, Las Vegas, US. For more than a decade, he has developed and taught quantum computing and information courseware at both the graduate and undergraduate level.
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