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Computational Introduction to Quantum Physics

Selstø, Sølve
Innbundet / 2024 / Engelsk

Produktdetaljer

ISBN
9781009389631
Publisert
2024-04-25
Utgiver
Vendor
Cambridge University Press
Vekt
551 gr
Høyde
260 mm
Bredde
185 mm
Dybde
15 mm
Aldersnivå
G, 01
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
196

Forfatter
Selstø, Sølve

Biographical note

Sølve Selstø is Professor of Physics at Oslo Metropolitan University, Norway. His research focusses on computational and theoretical quantum physics. He teaches both physics and mathematics, and believes that understanding within science and mathematics predominantly emerges from working with and discussing real-world problems. Selstø has previously written an introductory textbook on numerical methods, which he believes are valuable for both their utility and their ability to make theory tangible.

Computational Introduction to Quantum Physics

Selstø, Sølve
Innbundet / 2024 / Engelsk
Selstø, Sølve
Innbundet / 2024 / Engelsk
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'This book provides a well-written and carefully structured course on computational quantum mechanics, and its many exercises, with provided solutions, facilitate active learning both of physics and of numerical computing … This book will be very useful for undergraduate and graduate students interested in adopting modern methodologies for their learning by applying computational resources to intermediate to advanced quantum mechanical concepts.' Christian Hill, author of Learning Scientific Programming with Python (2nd ed., 2020) and Python for Chemists (2023)

'Selstø's book is an outstanding introduction to the world of quantum mechanics from a practical and computational, yet rigorous and comprehensive, perspective. For a student, the book is highly engaging, approachable, and it provides an exceptional pool of pedagogically guided exercises. I would highly recommend this book for teachers and students, as both a coursebook and self-study material.' Esa Räsänen, Tampere University

'This book takes the reader from the basics of quantum theory to the core of a range of topics that define the research front of quantum-based sciences. It is an easy-to-read, modern text, with illustrative examples and problems of an analytical and numerical nature. I would recommend the book for any intermediate quantum mechanics course!' Jan Petter Hansen, University of Bergen

Se alle

'This book presents, delightfully, a large number of practical tasks on both foundational topics and modern applications, with code provided online. More than a collection of exercises, yet less than a complete monograph, this feels like a workbook, in that the text screams out to be worked through … Students of quantum physics who wish to see what the abstract formalism implies in practice are in for a treat.' Alexandros Gezerlis, University of Guelph

This concise textbook introduces an innovative computational approach to quantum mechanics. Over the course of this engaging and informal book, students are encouraged to take an active role in learning key concepts by working through practical exercises. The book equips readers with some basic methodology and a toolbox of scientific computing methods, so they can use code to simulate and directly visualize how quantum particles behave. The important foundational elements of the wave function and the Schrödinger equation are first introduced, then the text gradually builds up to advanced topics including relativistic, open, and non-Hermitian quantum physics. This book assumes familiarity with basic mathematics and numerical methods, and can be used to support a two-semester advanced undergraduate course. Source code and solutions for every book exercise involving numerical implementation are provided in Python and MATLAB®, along with supplementary data. Additional problems are provided online for instructor use with locked solutions.
Les mer
Preface; 1. The wave function; 2. The Schrödinger equation; 3. The time-independent Schrödinger equation; 4. Quantum physics with several particles – and spin; 5. Quantum physics with explicit time-dependence; 6. Quantum technology and applications; 7. Beyond the Schrödinger equation; 8. Non-Hermitian quantum physics; 9. Some perspective; References; Index.
Les mer
'This book provides a well-written and carefully structured course on computational quantum mechanics, and its many exercises, with provided solutions, facilitate active learning both of physics and of numerical computing … This book will be very useful for undergraduate and graduate students interested in adopting modern methodologies for their learning by applying computational resources to intermediate to advanced quantum mechanical concepts.' Christian Hill, author of Learning Scientific Programming with Python (2nd ed., 2020) and Python for Chemists (2023)
Les mer
This textbook introduces quantum physics using a modern computational approach, enabling students to model quantum phenomena.

Relaterte produkter

'This book provides a well-written and carefully structured course on computational quantum mechanics, and its many exercises, with provided solutions, facilitate active learning both of physics and of numerical computing … This book will be very useful for undergraduate and graduate students interested in adopting modern methodologies for their learning by applying computational resources to intermediate to advanced quantum mechanical concepts.' Christian Hill, author of Learning Scientific Programming with Python (2nd ed., 2020) and Python for Chemists (2023)

'Selstø's book is an outstanding introduction to the world of quantum mechanics from a practical and computational, yet rigorous and comprehensive, perspective. For a student, the book is highly engaging, approachable, and it provides an exceptional pool of pedagogically guided exercises. I would highly recommend this book for teachers and students, as both a coursebook and self-study material.' Esa Räsänen, Tampere University

'This book takes the reader from the basics of quantum theory to the core of a range of topics that define the research front of quantum-based sciences. It is an easy-to-read, modern text, with illustrative examples and problems of an analytical and numerical nature. I would recommend the book for any intermediate quantum mechanics course!' Jan Petter Hansen, University of Bergen

Se alle

'This book presents, delightfully, a large number of practical tasks on both foundational topics and modern applications, with code provided online. More than a collection of exercises, yet less than a complete monograph, this feels like a workbook, in that the text screams out to be worked through … Students of quantum physics who wish to see what the abstract formalism implies in practice are in for a treat.' Alexandros Gezerlis, University of Guelph

This concise textbook introduces an innovative computational approach to quantum mechanics. Over the course of this engaging and informal book, students are encouraged to take an active role in learning key concepts by working through practical exercises. The book equips readers with some basic methodology and a toolbox of scientific computing methods, so they can use code to simulate and directly visualize how quantum particles behave. The important foundational elements of the wave function and the Schrödinger equation are first introduced, then the text gradually builds up to advanced topics including relativistic, open, and non-Hermitian quantum physics. This book assumes familiarity with basic mathematics and numerical methods, and can be used to support a two-semester advanced undergraduate course. Source code and solutions for every book exercise involving numerical implementation are provided in Python and MATLAB®, along with supplementary data. Additional problems are provided online for instructor use with locked solutions.
Les mer
Preface; 1. The wave function; 2. The Schrödinger equation; 3. The time-independent Schrödinger equation; 4. Quantum physics with several particles – and spin; 5. Quantum physics with explicit time-dependence; 6. Quantum technology and applications; 7. Beyond the Schrödinger equation; 8. Non-Hermitian quantum physics; 9. Some perspective; References; Index.
Les mer
'This book provides a well-written and carefully structured course on computational quantum mechanics, and its many exercises, with provided solutions, facilitate active learning both of physics and of numerical computing … This book will be very useful for undergraduate and graduate students interested in adopting modern methodologies for their learning by applying computational resources to intermediate to advanced quantum mechanical concepts.' Christian Hill, author of Learning Scientific Programming with Python (2nd ed., 2020) and Python for Chemists (2023)
Les mer
This textbook introduces quantum physics using a modern computational approach, enabling students to model quantum phenomena.

Produktdetaljer

ISBN
9781009389631
Publisert
2024-04-25
Utgiver
Vendor
Cambridge University Press
Vekt
551 gr
Høyde
260 mm
Bredde
185 mm
Dybde
15 mm
Aldersnivå
G, 01
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
196

Forfatter
Selstø, Sølve

Biographical note

Sølve Selstø is Professor of Physics at Oslo Metropolitan University, Norway. His research focusses on computational and theoretical quantum physics. He teaches both physics and mathematics, and believes that understanding within science and mathematics predominantly emerges from working with and discussing real-world problems. Selstø has previously written an introductory textbook on numerical methods, which he believes are valuable for both their utility and their ability to make theory tangible.

Relaterte produkter