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Quantum foundations and open quantum systems :: lecture notes of the advanced school /

The Advanced School on Quantum Foundations and Open Quantum Systems was an exceptional combination of lectures. These comprise lectures in standard physics and investigations on the foundations of quantum physics. On the one hand it included lectures on quantum information, quantum open systems, qua...

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Weitere Verfasser:	Nieuwenhuizen, Theo M. (HerausgeberIn), Pombo, Claudia (HerausgeberIn), Furtado, Claduio (HerausgeberIn), Khrenikov, Andrei Yu (HerausgeberIn), Pedrosa, Inácio A. (HerausgeberIn), Špička, Václav (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New Jersey : World Scientific, [2014]
Schlagworte:	Quantum theory. Quantum Theory Théorie quantique. SCIENCE > Energy. SCIENCE > Mechanics > General. SCIENCE > Physics > General. Quantum theory
Online-Zugang:	Volltext
Zusammenfassung:	The Advanced School on Quantum Foundations and Open Quantum Systems was an exceptional combination of lectures. These comprise lectures in standard physics and investigations on the foundations of quantum physics. On the one hand it included lectures on quantum information, quantum open systems, quantum transport and quantum solid state. On the other hand it included lectures on quantum measurement, models for elementary particles, sub-quantum structures and aspects on the philosophy and principles of quantum physics. The special program of this school offered a broad outlook on the current an.
Beschreibung:	1 online resource
ISBN:	9789814616737 9814616737

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505	0		\|a Preface; Contents; 1. The Physics of Quantum Computation; 1. Preliminary concepts; 1.1. From miniaturization to quantum technologies; 1.1.1. Semiclassical electrons in electronic devices; 1.1.2. Incoherent nanophysics; 1.1.3. Coherent nanoelectronics; 1.2. From bits to qubits; 1.2.1. Classical computation; 1.2.2. Reversibility and quantum computers; 1.3. Superpositions, entanglement, quantum parallelism; 1.3.1. The Bloch sphere; 1.3.2. Encoding a qubit; 1.3.3. Entanglement; 1.3.4. Quantum parallelism; 1.3.5. Quantum gates; 1.4. Quantum speedup.
505	8		\|a 1.5. Ingredients of quantum algorithms: Interference and measurement2. Quantum physics and quantum information; 2.1. Quantum dynamics of qubits and gates; 2.1.1. Single-qubit gates; 2.1.2. How to perform single-qubit gates; 2.1.3. Two-qubit gates; 2.2. Requirements for quantum hardware; 2.3. State of the art; 3. Decoherence; 3.1. Weak coupling theory; 3.2. Approximate approaches for decoherence due to classical low frequency noise; 4. Current implementations of quantum bits; 4.1. Superconducting qubits; 4.1.1. Superconductivity; 4.1.2. Josephson effect; 4.1.3. Cooper-pair-box based qubits.
505	8		\|a 4.1.4. Phase qubits4.1.5. Flux qubits; 4.1.6. Time-domain measurements and estimates of T1 and T2; 4.1.7. Coupling qubits: towards the implementation of quantum algorithms; 4.2. Quantum dots and atomic systems in solid-state hosts; 4.3. Liquid NMR; 4.4. Trapped ions and cold atoms; 4.5. Atoms in cavity QED; 4.6. Photons; 5. Conclusions and perspectives; Acknowledgments; References; 2. Quantum Information in Communication and Imaging; 1. From bit to qubit; 1.1. Introduction; 1.2. From bits to qubits; 1.3. Optical qubits; 1.4. Spontaneous parametric down conversion.
505	8		\|a 1.5. Concurrence in down conversion1.6. Schmidt number and von Neumann entropy; 1.7. Other measures of entanglement; 2. Communication and cryptography; 2.1. Information and channel capacity; 2.2. Quantum key distribution; 2.3. Quantum ghost imaging and secure image distribution; 3. Qudits and imaging; 3.1. Orbital angular momentum; 3.2. Entangled OAM pairs; 3.3. Quantum cryptography with OAM; 3.4. Digital spiral imaging; 3.5. Joint OAM spectra; 3.6. Mutual information and symmetry; 3.7. Imaging with entangled OAM; 3.8. Pixel entanglement; 3.9. Conclusions; References.
505	8		\|a 3. Electron Systems Out of Equilibrium: Nonequilibrium Green's Function Approach1. Introduction; 1.1. Challenges, open questions, techniques; 1.2. Non-equilibrium Green's functions; 1.2.1. Note on the NGF history; 1.3. Topics; 1.3.1. Formulation of transport theory and NGF; 1.3.2. Initial conditions; 1.3.3. Transport in open systems; 1.3.4. Reconstruction theorems; 1.3.5. NGF and kinetic equations; 1.4. Advantages of NGF; 2. Transport theory: Prototype description of nonequilibrium systems; 2.1. Prototype transport equation: Boltzmann equation; 2.2. Transport theory: Physical concepts.
520			\|a The Advanced School on Quantum Foundations and Open Quantum Systems was an exceptional combination of lectures. These comprise lectures in standard physics and investigations on the foundations of quantum physics. On the one hand it included lectures on quantum information, quantum open systems, quantum transport and quantum solid state. On the other hand it included lectures on quantum measurement, models for elementary particles, sub-quantum structures and aspects on the philosophy and principles of quantum physics. The special program of this school offered a broad outlook on the current an.
650		0	\|a Quantum theory. \|0 http://id.loc.gov/authorities/subjects/sh85109469
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700	1		\|a Khrenikov, Andrei Yu, \|e editor.
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contents	Preface; Contents; 1. The Physics of Quantum Computation; 1. Preliminary concepts; 1.1. From miniaturization to quantum technologies; 1.1.1. Semiclassical electrons in electronic devices; 1.1.2. Incoherent nanophysics; 1.1.3. Coherent nanoelectronics; 1.2. From bits to qubits; 1.2.1. Classical computation; 1.2.2. Reversibility and quantum computers; 1.3. Superpositions, entanglement, quantum parallelism; 1.3.1. The Bloch sphere; 1.3.2. Encoding a qubit; 1.3.3. Entanglement; 1.3.4. Quantum parallelism; 1.3.5. Quantum gates; 1.4. Quantum speedup. 1.5. Ingredients of quantum algorithms: Interference and measurement2. Quantum physics and quantum information; 2.1. Quantum dynamics of qubits and gates; 2.1.1. Single-qubit gates; 2.1.2. How to perform single-qubit gates; 2.1.3. Two-qubit gates; 2.2. Requirements for quantum hardware; 2.3. State of the art; 3. Decoherence; 3.1. Weak coupling theory; 3.2. Approximate approaches for decoherence due to classical low frequency noise; 4. Current implementations of quantum bits; 4.1. Superconducting qubits; 4.1.1. Superconductivity; 4.1.2. Josephson effect; 4.1.3. Cooper-pair-box based qubits. 4.1.4. Phase qubits4.1.5. Flux qubits; 4.1.6. Time-domain measurements and estimates of T1 and T2; 4.1.7. Coupling qubits: towards the implementation of quantum algorithms; 4.2. Quantum dots and atomic systems in solid-state hosts; 4.3. Liquid NMR; 4.4. Trapped ions and cold atoms; 4.5. Atoms in cavity QED; 4.6. Photons; 5. Conclusions and perspectives; Acknowledgments; References; 2. Quantum Information in Communication and Imaging; 1. From bit to qubit; 1.1. Introduction; 1.2. From bits to qubits; 1.3. Optical qubits; 1.4. Spontaneous parametric down conversion. 1.5. Concurrence in down conversion1.6. Schmidt number and von Neumann entropy; 1.7. Other measures of entanglement; 2. Communication and cryptography; 2.1. Information and channel capacity; 2.2. Quantum key distribution; 2.3. Quantum ghost imaging and secure image distribution; 3. Qudits and imaging; 3.1. Orbital angular momentum; 3.2. Entangled OAM pairs; 3.3. Quantum cryptography with OAM; 3.4. Digital spiral imaging; 3.5. Joint OAM spectra; 3.6. Mutual information and symmetry; 3.7. Imaging with entangled OAM; 3.8. Pixel entanglement; 3.9. Conclusions; References. 3. Electron Systems Out of Equilibrium: Nonequilibrium Green's Function Approach1. Introduction; 1.1. Challenges, open questions, techniques; 1.2. Non-equilibrium Green's functions; 1.2.1. Note on the NGF history; 1.3. Topics; 1.3.1. Formulation of transport theory and NGF; 1.3.2. Initial conditions; 1.3.3. Transport in open systems; 1.3.4. Reconstruction theorems; 1.3.5. NGF and kinetic equations; 1.4. Advantages of NGF; 2. Transport theory: Prototype description of nonequilibrium systems; 2.1. Prototype transport equation: Boltzmann equation; 2.2. Transport theory: Physical concepts.
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spelling	Quantum foundations and open quantum systems : lecture notes of the advanced school / editors, Theo M. Nieuwenhuizen, Claudia Pombo, Claudio Furtado, Andrei Yu. Khrenikov, Inácio A. Pedrosa, Václav Špička. New Jersey : World Scientific, [2014] ©2015 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Online resource; title from PDF title page (EBSCO, viewed October 15, 2014). Preface; Contents; 1. The Physics of Quantum Computation; 1. Preliminary concepts; 1.1. From miniaturization to quantum technologies; 1.1.1. Semiclassical electrons in electronic devices; 1.1.2. Incoherent nanophysics; 1.1.3. Coherent nanoelectronics; 1.2. From bits to qubits; 1.2.1. Classical computation; 1.2.2. Reversibility and quantum computers; 1.3. Superpositions, entanglement, quantum parallelism; 1.3.1. The Bloch sphere; 1.3.2. Encoding a qubit; 1.3.3. Entanglement; 1.3.4. Quantum parallelism; 1.3.5. Quantum gates; 1.4. Quantum speedup. 1.5. Ingredients of quantum algorithms: Interference and measurement2. Quantum physics and quantum information; 2.1. Quantum dynamics of qubits and gates; 2.1.1. Single-qubit gates; 2.1.2. How to perform single-qubit gates; 2.1.3. Two-qubit gates; 2.2. Requirements for quantum hardware; 2.3. State of the art; 3. Decoherence; 3.1. Weak coupling theory; 3.2. Approximate approaches for decoherence due to classical low frequency noise; 4. Current implementations of quantum bits; 4.1. Superconducting qubits; 4.1.1. Superconductivity; 4.1.2. Josephson effect; 4.1.3. Cooper-pair-box based qubits. 4.1.4. Phase qubits4.1.5. Flux qubits; 4.1.6. Time-domain measurements and estimates of T1 and T2; 4.1.7. Coupling qubits: towards the implementation of quantum algorithms; 4.2. Quantum dots and atomic systems in solid-state hosts; 4.3. Liquid NMR; 4.4. Trapped ions and cold atoms; 4.5. Atoms in cavity QED; 4.6. Photons; 5. Conclusions and perspectives; Acknowledgments; References; 2. Quantum Information in Communication and Imaging; 1. From bit to qubit; 1.1. Introduction; 1.2. From bits to qubits; 1.3. Optical qubits; 1.4. Spontaneous parametric down conversion. 1.5. Concurrence in down conversion1.6. Schmidt number and von Neumann entropy; 1.7. Other measures of entanglement; 2. Communication and cryptography; 2.1. Information and channel capacity; 2.2. Quantum key distribution; 2.3. Quantum ghost imaging and secure image distribution; 3. Qudits and imaging; 3.1. Orbital angular momentum; 3.2. Entangled OAM pairs; 3.3. Quantum cryptography with OAM; 3.4. Digital spiral imaging; 3.5. Joint OAM spectra; 3.6. Mutual information and symmetry; 3.7. Imaging with entangled OAM; 3.8. Pixel entanglement; 3.9. Conclusions; References. 3. Electron Systems Out of Equilibrium: Nonequilibrium Green's Function Approach1. Introduction; 1.1. Challenges, open questions, techniques; 1.2. Non-equilibrium Green's functions; 1.2.1. Note on the NGF history; 1.3. Topics; 1.3.1. Formulation of transport theory and NGF; 1.3.2. Initial conditions; 1.3.3. Transport in open systems; 1.3.4. Reconstruction theorems; 1.3.5. NGF and kinetic equations; 1.4. Advantages of NGF; 2. Transport theory: Prototype description of nonequilibrium systems; 2.1. Prototype transport equation: Boltzmann equation; 2.2. Transport theory: Physical concepts. The Advanced School on Quantum Foundations and Open Quantum Systems was an exceptional combination of lectures. These comprise lectures in standard physics and investigations on the foundations of quantum physics. On the one hand it included lectures on quantum information, quantum open systems, quantum transport and quantum solid state. On the other hand it included lectures on quantum measurement, models for elementary particles, sub-quantum structures and aspects on the philosophy and principles of quantum physics. The special program of this school offered a broad outlook on the current an. Quantum theory. http://id.loc.gov/authorities/subjects/sh85109469 Quantum Theory https://id.nlm.nih.gov/mesh/D011789 Théorie quantique. SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Quantum theory fast Nieuwenhuizen, Theo M., editor. http://id.loc.gov/authorities/names/no2006031738 Pombo, Claudia, editor. Furtado, Claduio, editor. Khrenikov, Andrei Yu, editor. Pedrosa, Inácio A., editor. Špička, Václav, editor. has work: Quantum foundations and open quantum systems (Text) https://id.oclc.org/worldcat/entity/E39PCFDWwww8FWGdRKbXmPKrv3 https://id.oclc.org/worldcat/ontology/hasWork Print version: Pedrosa, Inácio A. Quantum Foundations and Open Quantum Systems : Lecture Notes of the Advanced School. Singapore : World Scientific Publishing Company, ©2014 9789814616720 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=862338 Volltext
spellingShingle	Quantum foundations and open quantum systems : lecture notes of the advanced school / Preface; Contents; 1. The Physics of Quantum Computation; 1. Preliminary concepts; 1.1. From miniaturization to quantum technologies; 1.1.1. Semiclassical electrons in electronic devices; 1.1.2. Incoherent nanophysics; 1.1.3. Coherent nanoelectronics; 1.2. From bits to qubits; 1.2.1. Classical computation; 1.2.2. Reversibility and quantum computers; 1.3. Superpositions, entanglement, quantum parallelism; 1.3.1. The Bloch sphere; 1.3.2. Encoding a qubit; 1.3.3. Entanglement; 1.3.4. Quantum parallelism; 1.3.5. Quantum gates; 1.4. Quantum speedup. 1.5. Ingredients of quantum algorithms: Interference and measurement2. Quantum physics and quantum information; 2.1. Quantum dynamics of qubits and gates; 2.1.1. Single-qubit gates; 2.1.2. How to perform single-qubit gates; 2.1.3. Two-qubit gates; 2.2. Requirements for quantum hardware; 2.3. State of the art; 3. Decoherence; 3.1. Weak coupling theory; 3.2. Approximate approaches for decoherence due to classical low frequency noise; 4. Current implementations of quantum bits; 4.1. Superconducting qubits; 4.1.1. Superconductivity; 4.1.2. Josephson effect; 4.1.3. Cooper-pair-box based qubits. 4.1.4. Phase qubits4.1.5. Flux qubits; 4.1.6. Time-domain measurements and estimates of T1 and T2; 4.1.7. Coupling qubits: towards the implementation of quantum algorithms; 4.2. Quantum dots and atomic systems in solid-state hosts; 4.3. Liquid NMR; 4.4. Trapped ions and cold atoms; 4.5. Atoms in cavity QED; 4.6. Photons; 5. Conclusions and perspectives; Acknowledgments; References; 2. Quantum Information in Communication and Imaging; 1. From bit to qubit; 1.1. Introduction; 1.2. From bits to qubits; 1.3. Optical qubits; 1.4. Spontaneous parametric down conversion. 1.5. Concurrence in down conversion1.6. Schmidt number and von Neumann entropy; 1.7. Other measures of entanglement; 2. Communication and cryptography; 2.1. Information and channel capacity; 2.2. Quantum key distribution; 2.3. Quantum ghost imaging and secure image distribution; 3. Qudits and imaging; 3.1. Orbital angular momentum; 3.2. Entangled OAM pairs; 3.3. Quantum cryptography with OAM; 3.4. Digital spiral imaging; 3.5. Joint OAM spectra; 3.6. Mutual information and symmetry; 3.7. Imaging with entangled OAM; 3.8. Pixel entanglement; 3.9. Conclusions; References. 3. Electron Systems Out of Equilibrium: Nonequilibrium Green's Function Approach1. Introduction; 1.1. Challenges, open questions, techniques; 1.2. Non-equilibrium Green's functions; 1.2.1. Note on the NGF history; 1.3. Topics; 1.3.1. Formulation of transport theory and NGF; 1.3.2. Initial conditions; 1.3.3. Transport in open systems; 1.3.4. Reconstruction theorems; 1.3.5. NGF and kinetic equations; 1.4. Advantages of NGF; 2. Transport theory: Prototype description of nonequilibrium systems; 2.1. Prototype transport equation: Boltzmann equation; 2.2. Transport theory: Physical concepts. Quantum theory. http://id.loc.gov/authorities/subjects/sh85109469 Quantum Theory https://id.nlm.nih.gov/mesh/D011789 Théorie quantique. SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Quantum theory fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85109469 https://id.nlm.nih.gov/mesh/D011789
title	Quantum foundations and open quantum systems : lecture notes of the advanced school /
title_auth	Quantum foundations and open quantum systems : lecture notes of the advanced school /
title_exact_search	Quantum foundations and open quantum systems : lecture notes of the advanced school /
title_full	Quantum foundations and open quantum systems : lecture notes of the advanced school / editors, Theo M. Nieuwenhuizen, Claudia Pombo, Claudio Furtado, Andrei Yu. Khrenikov, Inácio A. Pedrosa, Václav Špička.
title_fullStr	Quantum foundations and open quantum systems : lecture notes of the advanced school / editors, Theo M. Nieuwenhuizen, Claudia Pombo, Claudio Furtado, Andrei Yu. Khrenikov, Inácio A. Pedrosa, Václav Špička.
title_full_unstemmed	Quantum foundations and open quantum systems : lecture notes of the advanced school / editors, Theo M. Nieuwenhuizen, Claudia Pombo, Claudio Furtado, Andrei Yu. Khrenikov, Inácio A. Pedrosa, Václav Špička.
title_short	Quantum foundations and open quantum systems :
title_sort	quantum foundations and open quantum systems lecture notes of the advanced school
title_sub	lecture notes of the advanced school /
topic	Quantum theory. http://id.loc.gov/authorities/subjects/sh85109469 Quantum Theory https://id.nlm.nih.gov/mesh/D011789 Théorie quantique. SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Quantum theory fast
topic_facet	Quantum theory. Quantum Theory Théorie quantique. SCIENCE Energy. SCIENCE Mechanics General. SCIENCE Physics General. Quantum theory
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