Condensed matter physics Books
Springer Topological Defects and the NonEquilibrium Dynamics of Symmetry Breaking Phase Transitions 549 Nato Science Series C
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£170.99
Springer Defects and Surfaceinduced Effects in Advanced Perovskites Proceedings of the NATO Advanced Research Workshop Jurmala Latvia 2325 August 1999 NATO Science Partnership SubSeries 3 77
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£85.49
Springer Defects and SurfaceInduced Effects in Advanced Perovskites
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Springer Soft Condensed Matter Configurations Dynamics and Functionality NATO Science Series C 552
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£123.49
Springer Soft Condensed Matter Configurations Dynamics and Functionality 552 Nato Science Series C
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Springer Structure Development During Polymer Processing Proceedings of the NATO Advanced Study Institute on Structure Development in Processing for Polymer Portugal NATO Science Series E 370
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Springer Structure Development During Polymer Processing
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Springer Dynamics Models and Kinetic Methods for Nonequilibrium Many Body Systems Proceedings of the NATO Advanced Study Institute Held in Leiden 27 July8 August 1998 NATO Science Series E 371
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Springer Dynamics Models and Kinetic Methods for Nonequilibrium Many Body Systems 371 Nato Science Series E
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Springer Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelectronics
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£117.72
Springer Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelectronics NATO Science Series C Mathematical and Physical Sciences Volume 559 Nato Science Series C closed
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£85.49
Springer NonCrystalline Chalcogenicides 8 SolidState Science and Technology Library
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£123.49
Springer Defects in SiO2 and Related Dielectrics Science and Technology Nato Science Series II
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£170.99
Springer Defects in SiO2 and Related Dielectrics Science and Technology Nato Science Series II
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Springer Modern Trends in Magnetostriction Study and Application Proceedings of the NATO Advanced Study Institute on Modern Trends in Magnetostriction Study and Chemistry 5 Nato Science Series II
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Springer Modern Trends in Magnetostriction Study and Application Nato Science Series II Mathematics Physics and Chemistry Volume 5
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Springer Supermaterials
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Springer HighTc Superconductors and Related Materials Material Science Fundamental Properties and Some Future Electronic Applications 86 Nato Science Partnership Subseries 3
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Springer HighTc Superconductors and Related Materials
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Springer Open Problems in Strongly Correlated Electron Systems Proceedings of the NATO Advanced Research Workshop Bled Slovenia 2630 April 2000 NATO II Mathematics Physics and Chemistry 15
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Springer Open Problems in Strongly Correlated Electron Systems
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Springer Carbon Filaments and Nanotubes Common Origins Differing Applications Proceedings of the NATO Advanced Study Institute Budapest Hungary 1930 June 2000 NATO Science Series E 372
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Springer Carbon Filaments and Nanotubes Common Origins Differing Applications
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Springer New Theoretical Approaches to Strongly Correlated Systems Proceedings of the NATO Advanced Study Institute Cambridge 1020 April 1999 NATO Science Series II Mathematics Physics Chemistry 23
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Springer New Theoretical Approaches to Strongly Correlated Systems 23 Nato Science Series II
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Springer IUTAM Symposium on Mechanical and Electromagnetic Waves in Structured Media Solid Mechanics Its Applications Proceedings of the IUTAM Symposium 91 Solid Mechanics and Its Applications
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Springer Nanostructured Carbon for Advanced Applications NATO Science Series II Mathematics Physics and Chemistry Proceedings of the NATO Advanced Study Erice Sicily Italy July 1931 2000 24
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Springer Nanostructured Carbon for Advanced Applications Proceedings of the NATO Advanced Study Institute on Nanostructured Carbon for Advanced Applications 1931 2000 24 Nato Science Series II
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Springer Dispersive Kinetics
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Springer Physical Aspects of Fracture
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Springer Societal Implications of Nanoscience and Nanotechnology
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Springer Intersubband Transitions in Quantum Wells Physics and Devices
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Springer Atlas of Point Contact Spectra of ElectronPhonon Interactions in Metals
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Artech House Publishers Numerical Simulation of Submicron Semiconductor Devices Electronic Materials Devices Library
Book SynopsisDescribes the basic theory of carrier transport, develops numerical algorithms used for transport problems or device simulations, and presents real-world examples of implementation.Table of ContentsSemiconductor fundamentals; carrier scattering; Monte Carlo transport calculation; Monte Carlo device simulation; balance equation method for device simulation.
£108.00
Lulu Press Perovskites and other framework structure crystalline materials
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£72.05
Legare Street Press Structure of a Liquidvapor Interface
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Legare Street Press Stochastic Models for Manybody Systems. II
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Legare Street Press Stochastic Models for Manybody Systems. I
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Creative Media Partners, LLC GuinierPreston Zone Evolution in 7075 Aluminum
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Creative Media Partners, LLC GuinierPreston Zone Evolution in 7075 Aluminum
£13.95
Creative Media Partners, LLC Fatigue Behavior of a SiCSiC Composite at 1000ÂC in Air and Steam
£23.70
Creative Media Partners, LLC Fatigue Behavior of a SiCSiC Composite at 1000ÂC in Air and Steam
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Creative Media Partners, LLC Electronic Structure of Diamond Zincblende and Chalcopyrite Semiconductors
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Creative Media Partners, LLC High Temperature Coarsening of Cr2Nb Precipitates in Cu8 Cr4 Nb Alloy
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Creative Media Partners, LLC Electronic Structure of Diamond Zincblende and Chalcopyrite Semiconductors
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Creative Media Partners, LLC High Temperature Coarsening of Cr2Nb Precipitates in Cu8 Cr4 Nb Alloy
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Springer Advanced Batteries
Book SynopsisIntroductory Material.- Principles Determining the Voltages and Capacities of Electrochemical Cells.- Binary Electrodes Under Equilibrium or Near-Equilibrium Conditions.- Ternary Electrodes Under Equilibriumor Near-Equilibrium Conditions.- Electrode Reactions That Deviate From Complete Equilibrium.- Insertion Reaction Electrodes.- Negative Electrodes in Lithium Cells.- Convertible Reactant Electrodes.- Positive Electrodes in Lithium Systems.- Negative Electrodes in Aqueous Systems.- Positive Electrodes in Aqueous Systems.- Other Topics Related to Electrodes.- Potentials.- Liquid Electrolytes.- Solid Electrolytes.- Electrolyte Stability Windows and Their Extension.- Experimental Methods to Evaluate the Critical Properties of Electrodes and Electrolytes.- Use of Polymeric Materials As Battery Components.- Transient Behavior of Electrochemical Systems.- Closing Comments.Trade ReviewFrom the reviews:“This book is not at all one more standard textbook on batteries, starting with some thermodynamic and kinetic electrochemistry and continuing with the well-known review of established, emerging, and desired batteries. It is something entirely different. … The book is a must for materials scientists in the field of secondary batteries, and it may indeed be a tutorial for the most patient reader. … It is a highly recommended book.” (R. Holze, Journal of Solid State Electrochemistry, Vol. 17, 2013)“This book is an excellent introduction to the field of advanced batteries for the newcomer to the field. It will not be outdated for a long time, as it is written from the point of view of the basics. … I can recommend without hesitation this book to all interested in batteries, and particularly to those entering the field. It is written at a level appropriate to someone with a chemistry, physics, or materials background.” (Stan Whittingham, MRS Bulletin, Vol. 37 (3), March, 2012)“This timely book focuses on the materials science principles of advanced battery technology. … Extensive reference lists, a summary, and many illustrations and graphs are provided for each chapter, with the author bringing great technical insight to bear on the subject. … This book is an outstanding technical resource on advanced battery technology for students or researchers … . It will definitely help to advance battery technology by providing new researchers with the tools and ideas necessary to develop the next generation of batteries.” (IEEE Electrical Insulation Magazine, 2010)Table of ContentsIntroductory Material.- Principles Determining the Voltages and Capacities of Electrochemical Cells.- Binary Electrodes Under Equilibrium or Near-Equilibrium Conditions.- Ternary Electrodes Under Equilibriumor Near-Equilibrium Conditions.- Electrode Reactions That Deviate From Complete Equilibrium.- Insertion Reaction Electrodes.- Negative Electrodes in Lithium Cells.- Convertible Reactant Electrodes.- Positive Electrodes in Lithium Systems.- Negative Electrodes in Aqueous Systems.- Positive Electrodes in Aqueous Systems.- Other Topics Related to Electrodes.- Potentials.- Liquid Electrolytes.- Solid Electrolytes.- Electrolyte Stability Windows and Their Extension.- Experimental Methods to Evaluate the Critical Properties of Electrodes and Electrolytes.- Use of Polymeric Materials As Battery Components.- Transient Behavior of Electrochemical Systems.- Closing Comments.
£170.99
Springer New York Interacting Electrons and Quantum Magnetism Graduate Texts in Contemporary Physics
Book SynopsisI Basic Models.- 1 Electron Interactions in Solids.- 2 Spin Exchange.- 3 The Hubbard Model and Its Descendants.- II Wave Functions and Correlations.- 4 Ground States of the Hubbard Model.- 5 Ground States of the Heisenberg Model.- 6 Disorder in Low Dimensions.- 7 Spin Representations.- 8 Variational Wave Functions and Parent Hamiltonians.- 9 From Ground States to Excitations.- III Path Integral Approximations.- 10 The Spin Path Integral.- 11 Spin Wave Theory.- 12 The Continuum Approximation.- 13 Nonlinear Sigma Model: Weak Coupling.- 14 The Nonlinear Sigma Model: Large N.- 15 Quantum Antiferromagnets: Continuum Results.- 16 SU(N) Heisenberg Models.- 17 The Large N Expansion.- 18 Schwinger Bosons Mean Field Theory.- 19 The Semiclassical Theory of the t J Model.- IV Mathematical Appendices.- Appendix A Second Quantization.- A.1 Fock States.- A.2 Normal Bilinear Operators.- A.3 Noninteracting Hamiltonians.- A.4 Exercises.- Appendix B Linear Response and Generating Functionals.- B.1 Spin Response Function.- B.2 Fluctuations and Dissipation.- B.3 The Generating Functional.- Appendix C Bose and Fermi Coherent States.- C.1 Complex Integration.- C.2 Grassmann Variables.- C.3 Coherent States.- C.4 Exercises.- Appendix D Coherent State Path Integrals.- D.1 Constructing the Path Integral.- D.2 Normal Bilinear Hamiltonians.- D.3 Matsubara Representation.- D.4 Matsubara Sums.- D.5 Exercises.- Appendix E The Method of Steepest Descents.Table of ContentsI Basic Models.- 1 Electron Interactions in Solids.- 1.1 Single Electron Theory.- 1.2 Fields and Interactions.- 1.3 Magnitude of Interactions in Metals.- 1.4 Effective Models.- 1.5 Exercises.- 2 Spin Exchange.- 2.1 Ferromagnetic Exchange.- 2.2 Antiferromagnetic Exchange.- 2.3 Superexchange.- 2.4 Exercises.- 3 The Hubbard Model and Its Descendants.- 3.1 Truncating the Interactions.- 3.2 At Large U: The t-J Model.- 3.3 The Negative-U Model.- 3.3.1 The Pseudo-spin Model and Superconductivity.- 3.4 Exercises.- II Wave Functions and Correlations.- 4 Ground States of the Hubbard Model.- 4.1 Variational Magnetic States.- 4.2 Some Ground State Theorems.- 4.3 Exercises.- 5 Ground States of the Heisenberg Model.- 5.1 The Antiferromagnet.- 5.2 Half-Odd Integer Spin Chains.- 5.3 Exercises.- 6 Disorder in Low Dimensions.- 6.1 Spontaneously Broken Symmetry.- 6.2 Mermin and Wagner’ Theorem.- 6.3 Quantum Disorder at T = 0.- 6.4 Exercises.- 7 Spin Representations.- 7.1 Holstein-Primakoff Bosons.- 7.2 Schwinger Bosons.- 7.2.1 Spin Rotations.- 7.3 Spin Coherent States.- 7.3.1 The ? Integrals.- 7.4 Exercises.- 8 Variational Wave Functions and Parent Hamiltonians.- 8.1 Valence Bond States.- 8.2 S = ½ States.- 8.2.1 The Majumdar-Ghosh Hamiltonian.- 8.2.2 Square Lattice RVB States.- 8.3 Valence Bond Solids and AKLT Models.- 8.3.1 Correlations in Valence Bond Solids.- 8.4 Exercises.- 9 From Ground States to Excitations.- 9.1 The Single Mode Approximation.- 9.2 Goldstone Modes.- 9.3 The Haldane Gap and the SMA.- III Path Integral Approximations.- 10 The Spin Path Integral.- 10.1 Construction of the Path Integral.- 10.1.1 The Green’ Function.- 10.2 The Large S Expansion.- 10.2.1 Semiclassical Dynamics.- 10.2.2 Semiclassical Spectrum.- 10.3 Exercises.- 11 Spin Wave Theory.- 11.1 Spin Waves: Path Integral Approach.- 11.1.1 The Ferromagnet.- 11.1.2 The Antiferromagnet.- 11.2 Spin Waves: Holstein-Primakoff Approach.- 11.2.1 The Ferromagnet.- 11.2.2 The Antiferromagnet.- 11.3 Exercises.- 12 The Continuum Approximation.- 12.1 Haldane’ Mapping.- 12.2 The Continuum Hamiltonian.- 12.3 The Kinetic Term.- 12.4 Partition Function and Correlations.- 12.5 Exercises.- 13 Nonlinear Sigma Model: Weak Coupling.- 13.1 The Lattice Regularization.- 13.2 Weak Coupling Expansion.- 13.3 Poor Man’ Renormalization.- 13.4 The ? Function.- 13.5 Exercises.- 14 The Nonlinear Sigma Model: Large N.- 14.1 The CP1 Formulation.- 14.2 CPN-1 Models at Large N.- 14.3 Exercises.- 15 Quantum Antiferromagnets: Continuum Results.- 15.1 One Dimension, the ? Term.- 15.2 One Dimension, Integer Spins.- 15.3 Two Dimensions.- 16 SU(N) Heisenberg Models.- 16.1 Ferromagnet, Schwinger Bosons.- 16.2 Antiferromagnet, Schwinger Bosons.- 16.3 Antiferromagnet, Constrained Fermions.- 16.4 The Generating Functional.- 16.5 The Hubbard-Stratonovich Transformation.- 16.6 Correlation Functions.- 17 The Large N Expansion.- 17.1 Fluctuations and Gauge Fields.- 17.2 1/N Expansion Diagrams.- 17.3 Sum Rules.- 17.3.1 Absence of Charge Fluctuations.- 17.3.2 On-Site Spin Fluctuations.- 17.4 Exercises.- 18 Schwinger Bosons Mean Field Theory.- 18.1 The Case of the Ferromagnet.- 18.1.1 One Dimension.- 18.1.2 Two Dimensions.- 18.2 The Case of the Antiferromagnet.- 18.2.1 Long-Range Antiferromagnetic Order.- 18.2.2 One Dimension.- 18.2.3 Two Dimensions.- 18.3 Exercises.- 19 The Semiclassical Theory of the t — J Model.- 19.1 Schwinger Bosons and Slave Fermions.- 19.2 Spin-Hole Coherent States.- 19.3 The Classical Theory: Small Polarons.- 19.4 Polaron Dynamics and Spin Tunneling.- 19.5 The t? — J Model.- 19.5.1 Superconductivity?.- 19.6 Exercises.- IV Mathematical Appendices.- Appendix A Second Quantization.- A.1 Fock States.- A.2 Normal Bilinear Operators.- A.3 Noninteracting Hamiltonians.- A.4 Exercises.- Appendix B Linear Response and Generating Functionals.- B.1 Spin Response Function.- B.2 Fluctuations and Dissipation.- B.3 The Generating Functional.- Appendix C Bose and Fermi Coherent States.- C.1 Complex Integration.- C.2 Grassmann Variables.- C.3 Coherent States.- C.4 Exercises.- Appendix D Coherent State Path Integrals.- D.1 Constructing the Path Integral.- D.2 Normal Bilinear Hamiltonians.- D.3 Matsubara Representation.- D.4 Matsubara Sums.- D.5 Exercises.- Appendix E The Method of Steepest Descents.
£52.24