|1."On the Device-Independent Approach to Quantum Physics: Advances in Quantum Nonlocality" by Jean-Daniel Bancal|
“On the Device-Independent Approach to Quantum Physics: Advances in Quantum Nonlocality” Book Review: This book explores the fascinating world of quantum physics, starting with wave mechanisms and the concept of wave-particle duality. It discusses the intriguing phenomena of non-locality and quantum correlations, which are connections between measurement outcomes. The book introduces a new approach called the Device-Independent Approach to Quantum Physics, which allows studying quantum correlations without assuming anything about the internal workings of the measurement apparatus. It also explores the use of polytopes, a powerful geometrical tool, to understand non-locality in the case of three or more parties. The book investigates the possibility of explaining quantum non-locality through hidden influences that propagate faster than light, providing insights into Einstein’s notion of action at a distance and its compatibility with relativity.
|2."Semiconductor Macroatoms: Basics Physics and Quantum-Device Applications" by Fausto Rossi|
“Semiconductor Macro Atoms: Basics Physics and Quantum-Device Applications” Book Review: This book explores the physics of semiconductor macro atoms at the nanoscale and their potential use as building blocks for advanced quantum devices. It provides a comprehensive review of the latest fabrication techniques and characterization methods for semiconductor quantum dots. The focus is on utilizing single-electron and exciton devices for quantum information processing and communication. The book starts with an introduction to the fundamental concepts of quantum dots and then presents in-depth review articles that cover various multidisciplinary topics, including nanofabrication, optical characterization, theoretical modeling of complex processes, and the design of innovative quantum-device architectures.
|3."Many-Body Quantum Theory in Condensed Matter Physics: An Introduction (Oxford Graduate Texts)" by Henrik Bruus and Karsten Flensberg|
“Many-Body Quantum Theory in Condensed Matter Physics: An Introduction (Oxford Graduate Texts)” Book Review: This book serves as an introduction to the theory of many-body quantum systems, specifically in the field of condensed matter physics. It provides a combination of theoretical concepts and mathematical frameworks. The book explains the underlying physical principles behind these theories and includes examples from electron systems and transport theory. It covers topics such as second quantization, many-body Green’s function, finite temperature Feynman diagrams, and bosonization. The book also explores applications in traditional transport theory for bulk and mesoscopic systems, as well as interacting electron gases, plasmons, electron-phonon interactions, superconductivity, and one-dimensional systems. It offers a detailed treatment of Luttinger liquid theory and bosonization techniques.
|4."Quantum Theory of Many-Body Systems (Graduate Texts in Physics)" by Alexandre Zagoskin|
“Quantum Theory of Many-Body Systems (Graduate Texts in Physics)” Book Review: This book thoroughly covers the physics of many-body systems, focusing on condensed matter. It introduces the mathematical framework of quasiparticles and Green’s functions, explaining important techniques using diagrams. The book covers normal and superconducting systems, as well as zero-temperature perturbation theory. It also includes the formalisms of Matsubara, Keldysh, and Nambu-Gor’kov. An introduction to Feynman path integrals is provided, along with the theory of one-dimensional systems and its applications to many-body problems. Aimed at graduate-level physics students, the book helps readers stay updated and apply the techniques to new problems, with examples drawn from mesoscopic physics.
|5."Quantum Transport: Atom to Transistor" by Supriyo Datta|
“Quantum Transport: Atom to Transistor” by Supriyo Datta” Book Review: This book presents the atomistic theory of matter in a conceptual framework. It focuses on current flow and includes advanced concepts of non-equilibrium quantum statistical mechanics. Prior knowledge of quantum transport is not necessary, as Chapter 1 provides a simple explanation. The book progresses from hydrogen to nanostructures, with detailed coverage of current flow. The final chapter presents equations for quantum transport with illustrative examples. Numerous numerical examples are provided throughout the book to offer concrete illustrations.
|6."Solid State Devices: A Quantum Physics Approach" by D DE COGAN|
6 Best Books on Physics of Quantum Devices
We have compiled a list of the Best Reference Books on Physics of Quantum Devices, which are used by students of top universities, and colleges. This will help you choose the right book depending on if you are a beginner or an expert. Here is the complete list of Physics of Quantum Devices Books with their authors, publishers, and an unbiased review of them as well as links to the Amazon website to directly purchase them. If permissible, you can also download the free PDF books on Physics of Quantum Devices below.
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