Verfügbarkeit: Modern theory of thermoelectricity /

Modern theory of thermoelectricity /:

This text describes the theory of thermoelectric effects, both from a practical and a fundamental perspective, and presents many examples of applications of the theory to real materials.

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Bibliographische Detailangaben
Hauptverfasser:	Zlatić, Veljko (VerfasserIn), Monnier, René (Physicist) (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York, NY : Oxford University Press, 2014.
Ausgabe:	First edition.
Schlagworte:	Thermoelectricity. Thermoélectricité. SCIENCE > Physics > Electricity. SCIENCE > Physics > Electromagnetism. Thermoelectricity
Online-Zugang:	Volltext
Zusammenfassung:	This text describes the theory of thermoelectric effects, both from a practical and a fundamental perspective, and presents many examples of applications of the theory to real materials.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9780191015403 0191015407

Internformat

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245	1	0	\|a Modern theory of thermoelectricity / \|c Veljko Zlatić, René Monnier.
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520	8		\|a This text describes the theory of thermoelectric effects, both from a practical and a fundamental perspective, and presents many examples of applications of the theory to real materials.
505	0		\|a Cover ; Preface; Contents; 1 Introduction; Part I Classical theory; 2 Phenomenological description of thermoelectric phenomena; 2.1 The entropy of a steady state; 2.2 Generalized currents and forces; 2.3 Transport equations and their symmetry; 2.4 A complete set of thermoelectric equations; 3 Phenomenological transport equations; 3.1 The charge current density-internal energy current density pair; 3.2 The charge current density-heat current density pair; 3.3 The charge current density-total energy current density pair; 4 Physical interpretation; 4.1 Thermoelectric heats
505	8		\|a 5 Thermomagnetic and galvanomagnetic effects5.1 Transport equations in the presence of a uniform magnetic field; 5.2 Transport of magnetization; 6 Solutions of the transport equations for homogeneous thermoelectrics; 6.1 Homogeneous thermoelectrics with constant material parameters; 6.2 Figure of merit of the material; 6.3 Coefficient of performance; 6.4 Efficiency coefficient; 6.5 Homogeneous thermoelectrics with T-dependent material parameters; 7 Solutions of the transport equations for inhomogeneous thermoelectrics; 7.1 Segmented thermoelectrics
505	8		\|a 7.2 Coefficient of performance, efficiency and figure of merit of a heterostructure with N segments7.3 Constrained-functional approach to device optimization; 8 Onsager's reciprocal relations in irreversible processes; 8.1 Thermodynamic description of fluctuations; 8.2 Statistical description of fluctuations; Part II Quantum theory; 9 Microscopic description of thermoelectric phenomena; 9.1 Slow and rapid perturbation; 9.2 Response to a diffusion force; 9.3 Response to a thermal force; 10 Calculation of the response to an applied field; 10.1 Linear response to an electrical force
505	8		\|a 10.2 Linear response to a thermal force10.3 Equivalence to Kubo formula; 11 Current density operators; 11.1 Charge current density operators for continuous models; 11.2 Energy current density operators for continuous models; 11.3 Discrete models for the description of correlated systems; 11.4 Charge current density operators for discrete models; 11.5 Energy current density operators for discrete models; 12 Jonson-Mahan theorem; Part III Comparison of theory and experiment; 13 Kondo effect in dilute alloys; 13.1 Introduction to the Kondo problem; 13.2 Experiments on dilute Kondo alloys
505	8		\|a 13.3 Single-impurity models13.4 Solution of the Kondo problem by perturbative scaling; 13.5 Comparison of scaling results with experimental data; 14 Rare-earth intermetallics: heavy fermions and valence fluctuators; 14.1 High-temperature experiments; 14.2 Low-temperature experiments; 14.3 Theoretical description of heavy fermions and valence fluctuators at high temperature; 14.4 Theoretical description of heavy fermions and valence fluctuators at low temperature; 14.5 The Fermi liquid approach; 14.6 The Fermi liquid laws and the universal ratios; 15 First-principles approaches
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author	Zlatić, Veljko Monnier, René (Physicist)
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contents	Cover ; Preface; Contents; 1 Introduction; Part I Classical theory; 2 Phenomenological description of thermoelectric phenomena; 2.1 The entropy of a steady state; 2.2 Generalized currents and forces; 2.3 Transport equations and their symmetry; 2.4 A complete set of thermoelectric equations; 3 Phenomenological transport equations; 3.1 The charge current density-internal energy current density pair; 3.2 The charge current density-heat current density pair; 3.3 The charge current density-total energy current density pair; 4 Physical interpretation; 4.1 Thermoelectric heats 5 Thermomagnetic and galvanomagnetic effects5.1 Transport equations in the presence of a uniform magnetic field; 5.2 Transport of magnetization; 6 Solutions of the transport equations for homogeneous thermoelectrics; 6.1 Homogeneous thermoelectrics with constant material parameters; 6.2 Figure of merit of the material; 6.3 Coefficient of performance; 6.4 Efficiency coefficient; 6.5 Homogeneous thermoelectrics with T-dependent material parameters; 7 Solutions of the transport equations for inhomogeneous thermoelectrics; 7.1 Segmented thermoelectrics 7.2 Coefficient of performance, efficiency and figure of merit of a heterostructure with N segments7.3 Constrained-functional approach to device optimization; 8 Onsager's reciprocal relations in irreversible processes; 8.1 Thermodynamic description of fluctuations; 8.2 Statistical description of fluctuations; Part II Quantum theory; 9 Microscopic description of thermoelectric phenomena; 9.1 Slow and rapid perturbation; 9.2 Response to a diffusion force; 9.3 Response to a thermal force; 10 Calculation of the response to an applied field; 10.1 Linear response to an electrical force 10.2 Linear response to a thermal force10.3 Equivalence to Kubo formula; 11 Current density operators; 11.1 Charge current density operators for continuous models; 11.2 Energy current density operators for continuous models; 11.3 Discrete models for the description of correlated systems; 11.4 Charge current density operators for discrete models; 11.5 Energy current density operators for discrete models; 12 Jonson-Mahan theorem; Part III Comparison of theory and experiment; 13 Kondo effect in dilute alloys; 13.1 Introduction to the Kondo problem; 13.2 Experiments on dilute Kondo alloys 13.3 Single-impurity models13.4 Solution of the Kondo problem by perturbative scaling; 13.5 Comparison of scaling results with experimental data; 14 Rare-earth intermetallics: heavy fermions and valence fluctuators; 14.1 High-temperature experiments; 14.2 Low-temperature experiments; 14.3 Theoretical description of heavy fermions and valence fluctuators at high temperature; 14.4 Theoretical description of heavy fermions and valence fluctuators at low temperature; 14.5 The Fermi liquid approach; 14.6 The Fermi liquid laws and the universal ratios; 15 First-principles approaches
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spelling	Zlatić, Veljko, author. http://id.loc.gov/authorities/names/n2003010815 Modern theory of thermoelectricity / Veljko Zlatić, René Monnier. First edition. New York, NY : Oxford University Press, 2014. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. This text describes the theory of thermoelectric effects, both from a practical and a fundamental perspective, and presents many examples of applications of the theory to real materials. Cover ; Preface; Contents; 1 Introduction; Part I Classical theory; 2 Phenomenological description of thermoelectric phenomena; 2.1 The entropy of a steady state; 2.2 Generalized currents and forces; 2.3 Transport equations and their symmetry; 2.4 A complete set of thermoelectric equations; 3 Phenomenological transport equations; 3.1 The charge current density-internal energy current density pair; 3.2 The charge current density-heat current density pair; 3.3 The charge current density-total energy current density pair; 4 Physical interpretation; 4.1 Thermoelectric heats 5 Thermomagnetic and galvanomagnetic effects5.1 Transport equations in the presence of a uniform magnetic field; 5.2 Transport of magnetization; 6 Solutions of the transport equations for homogeneous thermoelectrics; 6.1 Homogeneous thermoelectrics with constant material parameters; 6.2 Figure of merit of the material; 6.3 Coefficient of performance; 6.4 Efficiency coefficient; 6.5 Homogeneous thermoelectrics with T-dependent material parameters; 7 Solutions of the transport equations for inhomogeneous thermoelectrics; 7.1 Segmented thermoelectrics 7.2 Coefficient of performance, efficiency and figure of merit of a heterostructure with N segments7.3 Constrained-functional approach to device optimization; 8 Onsager's reciprocal relations in irreversible processes; 8.1 Thermodynamic description of fluctuations; 8.2 Statistical description of fluctuations; Part II Quantum theory; 9 Microscopic description of thermoelectric phenomena; 9.1 Slow and rapid perturbation; 9.2 Response to a diffusion force; 9.3 Response to a thermal force; 10 Calculation of the response to an applied field; 10.1 Linear response to an electrical force 10.2 Linear response to a thermal force10.3 Equivalence to Kubo formula; 11 Current density operators; 11.1 Charge current density operators for continuous models; 11.2 Energy current density operators for continuous models; 11.3 Discrete models for the description of correlated systems; 11.4 Charge current density operators for discrete models; 11.5 Energy current density operators for discrete models; 12 Jonson-Mahan theorem; Part III Comparison of theory and experiment; 13 Kondo effect in dilute alloys; 13.1 Introduction to the Kondo problem; 13.2 Experiments on dilute Kondo alloys 13.3 Single-impurity models13.4 Solution of the Kondo problem by perturbative scaling; 13.5 Comparison of scaling results with experimental data; 14 Rare-earth intermetallics: heavy fermions and valence fluctuators; 14.1 High-temperature experiments; 14.2 Low-temperature experiments; 14.3 Theoretical description of heavy fermions and valence fluctuators at high temperature; 14.4 Theoretical description of heavy fermions and valence fluctuators at low temperature; 14.5 The Fermi liquid approach; 14.6 The Fermi liquid laws and the universal ratios; 15 First-principles approaches Thermoelectricity. http://id.loc.gov/authorities/subjects/sh85134791 Thermoélectricité. SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Thermoelectricity fast Monnier, René (Physicist), author. http://id.loc.gov/authorities/names/no2014111753 has work: Modern theory of thermoelectricity (Text) https://id.oclc.org/worldcat/entity/E39PCGv9vVJDvQRT6XFKHqkdgq https://id.oclc.org/worldcat/ontology/hasWork Print version: Zlatić, Veljko. Modern theory of thermoelectricity. Oxford : Oxford University Press, 2014 0198705417 (OCoLC)881613014 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=802356 Volltext
spellingShingle	Zlatić, Veljko Monnier, René (Physicist) Modern theory of thermoelectricity / Cover ; Preface; Contents; 1 Introduction; Part I Classical theory; 2 Phenomenological description of thermoelectric phenomena; 2.1 The entropy of a steady state; 2.2 Generalized currents and forces; 2.3 Transport equations and their symmetry; 2.4 A complete set of thermoelectric equations; 3 Phenomenological transport equations; 3.1 The charge current density-internal energy current density pair; 3.2 The charge current density-heat current density pair; 3.3 The charge current density-total energy current density pair; 4 Physical interpretation; 4.1 Thermoelectric heats 5 Thermomagnetic and galvanomagnetic effects5.1 Transport equations in the presence of a uniform magnetic field; 5.2 Transport of magnetization; 6 Solutions of the transport equations for homogeneous thermoelectrics; 6.1 Homogeneous thermoelectrics with constant material parameters; 6.2 Figure of merit of the material; 6.3 Coefficient of performance; 6.4 Efficiency coefficient; 6.5 Homogeneous thermoelectrics with T-dependent material parameters; 7 Solutions of the transport equations for inhomogeneous thermoelectrics; 7.1 Segmented thermoelectrics 7.2 Coefficient of performance, efficiency and figure of merit of a heterostructure with N segments7.3 Constrained-functional approach to device optimization; 8 Onsager's reciprocal relations in irreversible processes; 8.1 Thermodynamic description of fluctuations; 8.2 Statistical description of fluctuations; Part II Quantum theory; 9 Microscopic description of thermoelectric phenomena; 9.1 Slow and rapid perturbation; 9.2 Response to a diffusion force; 9.3 Response to a thermal force; 10 Calculation of the response to an applied field; 10.1 Linear response to an electrical force 10.2 Linear response to a thermal force10.3 Equivalence to Kubo formula; 11 Current density operators; 11.1 Charge current density operators for continuous models; 11.2 Energy current density operators for continuous models; 11.3 Discrete models for the description of correlated systems; 11.4 Charge current density operators for discrete models; 11.5 Energy current density operators for discrete models; 12 Jonson-Mahan theorem; Part III Comparison of theory and experiment; 13 Kondo effect in dilute alloys; 13.1 Introduction to the Kondo problem; 13.2 Experiments on dilute Kondo alloys 13.3 Single-impurity models13.4 Solution of the Kondo problem by perturbative scaling; 13.5 Comparison of scaling results with experimental data; 14 Rare-earth intermetallics: heavy fermions and valence fluctuators; 14.1 High-temperature experiments; 14.2 Low-temperature experiments; 14.3 Theoretical description of heavy fermions and valence fluctuators at high temperature; 14.4 Theoretical description of heavy fermions and valence fluctuators at low temperature; 14.5 The Fermi liquid approach; 14.6 The Fermi liquid laws and the universal ratios; 15 First-principles approaches Thermoelectricity. http://id.loc.gov/authorities/subjects/sh85134791 Thermoélectricité. SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Thermoelectricity fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85134791
title	Modern theory of thermoelectricity /
title_auth	Modern theory of thermoelectricity /
title_exact_search	Modern theory of thermoelectricity /
title_full	Modern theory of thermoelectricity / Veljko Zlatić, René Monnier.
title_fullStr	Modern theory of thermoelectricity / Veljko Zlatić, René Monnier.
title_full_unstemmed	Modern theory of thermoelectricity / Veljko Zlatić, René Monnier.
title_short	Modern theory of thermoelectricity /
title_sort	modern theory of thermoelectricity
topic	Thermoelectricity. http://id.loc.gov/authorities/subjects/sh85134791 Thermoélectricité. SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Thermoelectricity fast
topic_facet	Thermoelectricity. Thermoélectricité. SCIENCE Physics Electricity. SCIENCE Physics Electromagnetism. Thermoelectricity
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=802356
work_keys_str_mv	AT zlaticveljko moderntheoryofthermoelectricity AT monnierrene moderntheoryofthermoelectricity

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