Mesoscopic physics meets quantum engineering:
Quantum mechanics was initially constructed to describe objects on atomic and subatomic scales. However, in the last decades, quantum mechanics has been revisited and its use extended to the study and description of macroscopic distinct states. This is accomplished by modeling basic objects of mesos...
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Format: | Elektronisch E-Book |
Sprache: | English |
Veröffentlicht: |
Singapore
World Scientific Publishing
c2019
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Online-Zugang: | UBY01 Volltext |
Zusammenfassung: | Quantum mechanics was initially constructed to describe objects on atomic and subatomic scales. However, in the last decades, quantum mechanics has been revisited and its use extended to the study and description of macroscopic distinct states. This is accomplished by modeling basic objects of mesoscopic physics, such as superconducting quantum circuits and low-dimensional structures derived from a two-dimensional electronic gas. In recent years, these devices support the study of fundamental systems such as a two-level quantum system, or qubit, as an object for manipulations and applications. This book will provide an introduction to quantum computation and quantum information, based on quantum physics, solid-state theory, and theory of computing. We will become familiar with this important field and explore how it is inseparably linked to basic notions of physics such as superposition, entanglement, and quantum dynamics. Then we will consider superconducting and mesoscopic systems, as well as a series of phenomena, where important are the spectra quantization, interference, and charge discreteness. This book derives its content from a lecture course designed for graduate students and postdocs who are acquainted with quantum mechanics and statistical physics. In particular, it was developed together with the lecture series taught to 5th year students of the Department of Physics and Technology in V N Karazin Kharkiv National University |
Beschreibung: | Mode of access: World Wide Web |
Beschreibung: | 1 online resource (ix, 165 pages) |
ISBN: | 9789811201400 9811201404 |
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505 | 8 | |a Quantum engineering -- Superposition, entanglement, and quantum computation -- Quantum mechanics of qubits -- Superconducting quantum circuits -- Normal quantum circuits -- Circuit quantum electrodynamics - Conclusion | |
505 | 8 | |a Includes bibliographical references and index | |
520 | |a Quantum mechanics was initially constructed to describe objects on atomic and subatomic scales. However, in the last decades, quantum mechanics has been revisited and its use extended to the study and description of macroscopic distinct states. This is accomplished by modeling basic objects of mesoscopic physics, such as superconducting quantum circuits and low-dimensional structures derived from a two-dimensional electronic gas. In recent years, these devices support the study of fundamental systems such as a two-level quantum system, or qubit, as an object for manipulations and applications. This book will provide an introduction to quantum computation and quantum information, based on quantum physics, solid-state theory, and theory of computing. We will become familiar with this important field and explore how it is inseparably linked to basic notions of physics such as superposition, entanglement, and quantum dynamics. Then we will consider superconducting and mesoscopic systems, as well as a series of phenomena, where important are the spectra quantization, interference, and charge discreteness. This book derives its content from a lecture course designed for graduate students and postdocs who are acquainted with quantum mechanics and statistical physics. In particular, it was developed together with the lecture series taught to 5th year students of the Department of Physics and Technology in V N Karazin Kharkiv National University | ||
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Datensatz im Suchindex
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author | Shevchenko, Sergey N. |
author_facet | Shevchenko, Sergey N. |
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author_sort | Shevchenko, Sergey N. |
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contents | Quantum engineering -- Superposition, entanglement, and quantum computation -- Quantum mechanics of qubits -- Superconducting quantum circuits -- Normal quantum circuits -- Circuit quantum electrodynamics - Conclusion Includes bibliographical references and index |
ctrlnum | (ZDB-124-WOP)00011310 (OCoLC)1190675691 (DE-599)BVBBV046807270 |
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illustrated | Not Illustrated |
index_date | 2024-07-03T14:57:52Z |
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institution | BVB |
isbn | 9789811201400 9811201404 |
language | English |
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physical | 1 online resource (ix, 165 pages) |
psigel | ZDB-124-WOP |
publishDate | 2019 |
publishDateSearch | 2019 |
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publisher | World Scientific Publishing |
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spelling | Shevchenko, Sergey N. Verfasser aut Mesoscopic physics meets quantum engineering Sergey N. Shevchenko Singapore World Scientific Publishing c2019 1 online resource (ix, 165 pages) txt rdacontent c rdamedia cr rdacarrier Mode of access: World Wide Web Quantum engineering -- Superposition, entanglement, and quantum computation -- Quantum mechanics of qubits -- Superconducting quantum circuits -- Normal quantum circuits -- Circuit quantum electrodynamics - Conclusion Includes bibliographical references and index Quantum mechanics was initially constructed to describe objects on atomic and subatomic scales. However, in the last decades, quantum mechanics has been revisited and its use extended to the study and description of macroscopic distinct states. This is accomplished by modeling basic objects of mesoscopic physics, such as superconducting quantum circuits and low-dimensional structures derived from a two-dimensional electronic gas. In recent years, these devices support the study of fundamental systems such as a two-level quantum system, or qubit, as an object for manipulations and applications. This book will provide an introduction to quantum computation and quantum information, based on quantum physics, solid-state theory, and theory of computing. We will become familiar with this important field and explore how it is inseparably linked to basic notions of physics such as superposition, entanglement, and quantum dynamics. Then we will consider superconducting and mesoscopic systems, as well as a series of phenomena, where important are the spectra quantization, interference, and charge discreteness. This book derives its content from a lecture course designed for graduate students and postdocs who are acquainted with quantum mechanics and statistical physics. In particular, it was developed together with the lecture series taught to 5th year students of the Department of Physics and Technology in V N Karazin Kharkiv National University Mesoscopic phenomena (Physics) Quantum theory Electronic books https://www.worldscientific.com/worldscibooks/10.1142/11310 Verlag URL des Erstveröffentlichers Volltext |
spellingShingle | Shevchenko, Sergey N. Mesoscopic physics meets quantum engineering Quantum engineering -- Superposition, entanglement, and quantum computation -- Quantum mechanics of qubits -- Superconducting quantum circuits -- Normal quantum circuits -- Circuit quantum electrodynamics - Conclusion Includes bibliographical references and index Mesoscopic phenomena (Physics) Quantum theory |
title | Mesoscopic physics meets quantum engineering |
title_auth | Mesoscopic physics meets quantum engineering |
title_exact_search | Mesoscopic physics meets quantum engineering |
title_exact_search_txtP | Mesoscopic physics meets quantum engineering |
title_full | Mesoscopic physics meets quantum engineering Sergey N. Shevchenko |
title_fullStr | Mesoscopic physics meets quantum engineering Sergey N. Shevchenko |
title_full_unstemmed | Mesoscopic physics meets quantum engineering Sergey N. Shevchenko |
title_short | Mesoscopic physics meets quantum engineering |
title_sort | mesoscopic physics meets quantum engineering |
topic | Mesoscopic phenomena (Physics) Quantum theory |
topic_facet | Mesoscopic phenomena (Physics) Quantum theory |
url | https://www.worldscientific.com/worldscibooks/10.1142/11310 |
work_keys_str_mv | AT shevchenkosergeyn mesoscopicphysicsmeetsquantumengineering |