Quantum Mechanics for Beginners
With Applications to Quantum Communication and Quantum Computing
Price: 1495.00 INR
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ISBN:
9780198854234
Publication date:
20/10/2020
Paperback
288 pages
Price: 1495.00 INR
We sell our titles through other companies
Disclaimer :You will be redirected to a third party website.The sole responsibility of supplies, condition of the product, availability of stock, date of delivery, mode of payment will be as promised by the said third party only. Prices and specifications may vary from the OUP India site.
ISBN:
9780198854234
Publication date:
20/10/2020
Paperback
288 pages
M. Suhail Zubairy
Requires only high school mathematics, making it uniquely accessible,Addresses rapidly developing topics like quantum communication and quantum computing in a simple but rigorous manner,Suitable for a course on quantum mechanics at the freshman or early university level, allowing students to learn exciting modern topics at an early stage,Also serves as a good reference for junior and senior level physics courses on quantum mechanics,Explains conceptual foundations of quantum mechanics, topics not usually touched on in standard texts, clearly and concisely
Rights: OUP UK (INDIAN TERRITORY)
M. Suhail Zubairy
Description
Quantum mechanics is a highly successful yet mysterious theory. Quantum Mechanics for Beginners provides an accessible introduction to this fascinating subject for those with only a high school background in physics and mathematics. This book is entirely algebra-based, except for the last chapter on the Schrodinger equation. A major advantage of this book is that it provides an introduction to the fields of quantum communication and quantum computing.
Topics covered include wave-particle duality, Heisenberg uncertainty relation, Bohr's principle of complementarity, quantum superposition and entanglement, Schrodinger's cat,
Einstein-Podolsky-Rosen paradox, Bell theorem, quantum no-cloning theorem and quantum copying, quantum eraser and delayed choice, quantum teleportation, quantum key distribution protocols such as BB-84 and B-92, counterfactual communication, quantum money, quantum Fourier transform, quantum computing protocols including Shor and Grover algorithms, quantum dense coding, and quantum tunneling. All these topics and more are explained fully, but using only elementary mathematics. Each chapter is followed by exercises and a short list of references.
This book is meant for beginning college students as well as advanced high school students, and can be used as a text for a
one-semester course at the undergraduate level. It can also be useful for those who want to learn some of the fascinating recent and ongoing developments in areas related to the foundations of quantum mechanics and its applications to areas like quantum communication and quantum computing.
About the author
M. Suhail Zubairy, University Distinguished Professor and Munnerlyn-Heep Chair in Quantum Optics, Department of Physics & Astronomy, Texas A&M UniversityProf. Zubairy is a University Distinguished Professor and the holder of the Munnerlyn-Heep Chair in Quantum Optics at Texas A&M University. He has made many pioneering contributions in the fields of quantum optics and quantum information. He is co-author (with Marlan Scully) of a classic textbook on Quantum Optics. Prof. Zubairy has received many honors including the Willis E. Lamb Award for Laser Science and Quantum Optics, Alexander von Humboldt Research Prize for Distinguished Scientists, and the George H. W. Bush Award for Excellence in International Research. He is Fellow of Pakistan Academy of Sciences, American Physical Society, and Optical Society of America.
M. Suhail Zubairy
Table of contents
1:What is this book about?
I Introductory Topics
2:Mathematical background
3:Particle dynamics
4:Wave theory
II Fundamentals of quantum mechanics
5:Fundamentals of quantum mechanics
6:Birth of quantum mechanics - Planck, Einstein, Bohr
7:de Broglie waves: Are electrons waves or particles?
8:Quantum interference — wave-particle duality
9:Simplest quantum devices: Polarizers and beam splitters
10:Quantum superposition and entanglement
11:No-cloning theorem
12:EPR and Bell theorem
III Quantum communication
13:Quantum secure communication
14:Quantum communication with invisible photons
IV Quantum computing
15:Quantum computing I
16:Quantum computing II
V Schrodinger equation
17:Demise of Newtonian dynamics: Schrodinger equation
M. Suhail Zubairy
Description
Quantum mechanics is a highly successful yet mysterious theory. Quantum Mechanics for Beginners provides an accessible introduction to this fascinating subject for those with only a high school background in physics and mathematics. This book is entirely algebra-based, except for the last chapter on the Schrodinger equation. A major advantage of this book is that it provides an introduction to the fields of quantum communication and quantum computing.
Topics covered include wave-particle duality, Heisenberg uncertainty relation, Bohr's principle of complementarity, quantum superposition and entanglement, Schrodinger's cat,
Einstein-Podolsky-Rosen paradox, Bell theorem, quantum no-cloning theorem and quantum copying, quantum eraser and delayed choice, quantum teleportation, quantum key distribution protocols such as BB-84 and B-92, counterfactual communication, quantum money, quantum Fourier transform, quantum computing protocols including Shor and Grover algorithms, quantum dense coding, and quantum tunneling. All these topics and more are explained fully, but using only elementary mathematics. Each chapter is followed by exercises and a short list of references.
This book is meant for beginning college students as well as advanced high school students, and can be used as a text for a
one-semester course at the undergraduate level. It can also be useful for those who want to learn some of the fascinating recent and ongoing developments in areas related to the foundations of quantum mechanics and its applications to areas like quantum communication and quantum computing.
About the author
M. Suhail Zubairy, University Distinguished Professor and Munnerlyn-Heep Chair in Quantum Optics, Department of Physics & Astronomy, Texas A&M UniversityProf. Zubairy is a University Distinguished Professor and the holder of the Munnerlyn-Heep Chair in Quantum Optics at Texas A&M University. He has made many pioneering contributions in the fields of quantum optics and quantum information. He is co-author (with Marlan Scully) of a classic textbook on Quantum Optics. Prof. Zubairy has received many honors including the Willis E. Lamb Award for Laser Science and Quantum Optics, Alexander von Humboldt Research Prize for Distinguished Scientists, and the George H. W. Bush Award for Excellence in International Research. He is Fellow of Pakistan Academy of Sciences, American Physical Society, and Optical Society of America.
Table of contents
1:What is this book about?
I Introductory Topics
2:Mathematical background
3:Particle dynamics
4:Wave theory
II Fundamentals of quantum mechanics
5:Fundamentals of quantum mechanics
6:Birth of quantum mechanics - Planck, Einstein, Bohr
7:de Broglie waves: Are electrons waves or particles?
8:Quantum interference — wave-particle duality
9:Simplest quantum devices: Polarizers and beam splitters
10:Quantum superposition and entanglement
11:No-cloning theorem
12:EPR and Bell theorem
III Quantum communication
13:Quantum secure communication
14:Quantum communication with invisible photons
IV Quantum computing
15:Quantum computing I
16:Quantum computing II
V Schrodinger equation
17:Demise of Newtonian dynamics: Schrodinger equation
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