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1.

電子ブック

EB
Ian Moir, Allan Seabridge, Roy Langton (editors)
出版情報: Chichester, West Sussex, England : Wiley
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2.

電子ブック

EB
出版情報: Amsterdam ; New York : Elsevier
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3.

電子ブック

EB
出版情報: Amsterdam ; Tokyo : Elsevier Scientific Pub.
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4.

電子ブック

EB
Harry L. Van Trees
出版情報: New York : Wiley, 1968-71 , New York : Wiley, 2001-  v. ; 24 cm
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5.

電子ブック

EB
Association for Symbolic Logic
出版情報: Berlin ; New York : Springer-Verlag
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6.

電子ブック

EB
Philip W. Anderson
出版情報: Singapore ; Hackensack, N.J. : World Scientific Pub. Co., c2004  xix, 862 p.
シリーズ名: World Scientific series in 20th century physics ; v. 35
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7.

電子ブック

EB
by T. Hida & Si Si
出版情報: Singapore ; Hackensack, N.J. : World Scientific Pub. Co., c2008  xiii, 266 p.
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8.

電子ブック

EB
Frank J. Owens
出版情報: Singapore : World Scientific Publishing Co. Pte Ltd., 2018  1 online resource (170 p.)
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9.

電子ブック

EB
Jean-Luc Lebrun
出版情報: Singapore ; Hackensack, N.J. : World Scientific Pub. Co., c2011  xiv, 265 p.
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目次情報: 続きを見る
Preface First Edition
Preface Second Edition
The Reading Toolkit / Part 1:
Require Less from Memory / Chapter 1:
The Forgotten or Undefined Acronym
The Detached Pronoun
The Diverting Synonym
The Distant Background
The Broken Couple12 The Word Overflow
Sustain Attention to Ensure Continuous Reading / Chapter 2:
Keep the Story Moving Forward
Twist and Shout
Pause to Illustrate and Clarify
Recreate Local Suspense
Reduce Reading Time / Chapter 3:
Keep the Reader Motivated / Chapter 4:
Dash or Fuel the Hopes of Your Readers, Your Choice
Meet the Goals of Your Readers to Motivate Them
Bridge the Knowledge Gap / Chapter 5:
Bridge to Ground Zero
Bridge to Title Words
Just-in-Time Bridge by Way of Local Background
Set the Reader's Expectations / Chapter 6:
Expectations from Grammar
Expectations from Science
Set Progression Tracks for Fluid Reading / Chapter 7:
Topic and Stress
Three Topic-Based Progression Schemes to Make Reading Fluid
Non Topic-Based Progression Schemes
Pause in Progression
Troubleshooting Progression Problems
Detect Sentence Fluidity Problems / Chapter 8:
Reasons for No Expectations
Reasons for Betrayed Expectations
Control Reading Energy Consumption / Chapter 9:
The Energy Bill
Punctuation: An Energy Refueling Station
Paper Structure and Purpose / Part 2:
Title : The Face of Your Paper / Chapter 10:
Six Titles to Learn About Titles
Six Techniques for Improving Titles
Purpose and Qualities of Titles
Title Q&A
Title Metrics
Abstract: The Heart of Your Paper / Chapter 11:
The Four Parts
Coherence Between Abstract and Title
Tense of Verbs and Precision
Purpose and Qualities of Abstracts
Abstract Q&A
Abstract Metrics
Headings-Subheadings: The Skeleton of Your Paper / Chapter 12:
Four Principles for a Good Structure
Syntactic Rules for Headings
Purpose and Qualities of Structures
Structure Q&A
Structure Metrics
Introduction: The Hands of Your Paper / Chapter 13:
The Introduction Starts Fast and Finishes Strong
The Introduction Answers Key Reader Questions
The Introduction Frames Through Scope and Definitions
The Introduction Is a Personal Active Story
Introduction Part II Popular Traps / Chapter 14:
The Trap of the Story Plot
The Trap of Plagiarism
The Trap of Imprecision
The Trap of judgmental Words
The Deadly Outcome of the Sum of All Traps: Disbelief
Purpose and Qualities of Introductions
Introduction Q&A
Introduction Metrics
Visuals: The Voice of Your Paper / Chapter 15:
Seven Principles for Good Visuals
Purpose and Qualities of Visuals
Visuals Q&A
Visuals Metrics (calculate your score for each visual)
Abstract Versus Conclusions / Chapter 16: Conclusions: The Smile of Your Paper:
Examples and Counterexamples
Purpose and Qualities of Conclusions
Conclusions Q&A
Conclusion Metrics (if you have a conclusion)
Additional Resources for the Avid Learner / Chapter 17:
On Visuals
On Grammar
On the Evolution of Scientific Writing
On Persuasion
On Scientific Papers
On Writing Process and Reviewers
Books on Scientific Writing
Epilogue: Your Future Work
Index
Preface First Edition
Preface Second Edition
The Reading Toolkit / Part 1:
10.

電子ブック

EB
Peter Fulde
出版情報: Singapore ; Hackensack, N.J. : World Scientific Pub. Co., c2012  xiii, 535 p.
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目次情報: 続きを見る
Introduction / 1:
Independent Electrons / 2:
Many-Electron Hamiltonian / 2.1:
Basis Sets / 2.2:
Self-consistent Field Equations / 2.3:
Unrestricted SCF Approximation / 2.4:
Missing Features of the Independent-Electron Approximation / 2.5:
Homogeneous Electron Gas / 3:
Uncorrelated Electrons / 3.1:
Random-Phase Approximation / 3.2:
Wigner Crystal / 3.3:
Density Functional Theory / 4:
Theory of Hohenberg, Kohn and Sham / 4.1:
Local-Density Approximation and Extensions / 4.2:
Strong Electron Correlations: LDA+U / 4.3:
The Energy Gap Problem / 4.4:
Time-Dependent DFT / 4.5:
Wavefunction-Based Methods / 5:
Method of Configuration Interactions / 5.1:
Cumulants and their Properties / 5.2:
Ground-State Wavefunction and Energy / 5.3:
Method of Increments / 5.3.1:
Different Approximation Schemes / 5.4:
Partitioning and Projection Methods / 5.4.1:
Coupled Cluster Method / 5.4.2:
Selection of Excitation Operators / 5.4.3:
Trial Wavefunctions / 5.4.4:
Correlated Ground-State Wavefunctions / 6:
Semiconductors / 6.1:
Model for Interatomic Correlations / 6.1.1:
Estimates of Intra-Atomic Correlations / 6.1.2:
Ab Initio Results / 6.1.3:
Ionic and van der Waals Solids / 6.2:
Three Oxides: MgO, CaO and NiO / 6.2.1:
Rare-Gas Solids / 6.2.2:
Simple Metals / 6.3:
Ground States with Strong Correlations: CASSCF / 6.4:
Quasiparticle Excitations / 7:
Single-particle Green's Function / 7.1:
Perturbation Expansions / 7.1.1:
Temperature Green's Function / 7.1.2:
Quasiparticles in Metals / 7.2:
Quasiparticles in Semiconductors and Insulators / 7.3:
Quasiparticle Approximation / 7.3.1:
A Simple Model: Bond-Orbital Approximation / 7.3.2:
Wavefunction-Based Ab Inito Calculations / 7.3.3:
Incoherent Excitations / 8:
Projection Method / 8.1:
An Example: Hubbard Model / 8.2:
Coherent-Potential Approximations / 9:
Static Disorder / 9.1:
Dynamical Disorder: DMFT and Beyond / 9.2:
Strongly Correlated Electrons / 10:
Measure of Correlation Strengths / 10.1:
Indicators of Strong Correlations / 10.2:
Low-Energy Scales: a Simple Model / 10.2.1:
Effective Hamiltonians / 10.2.2:
Kondo Effect / 10.3:
The Hubbard Model Revisited / 10.4:
Spin-Density Wave Ground State / 10.4.1:
Gutzwiller's Ground-State Wavefunction / 10.4.2:
Hubbard's Approximations and their Extensions / 10.4.3:
Kanamori Limit / 10.4.4:
The t-J Model / 10.5:
Mean-Field Approximations / 10.6:
Test of Different Approximation Schemes / 10.6.1:
Metal-Insulator Transitions / 10.7:
Numerical Studies / 10.8:
Break-down of Fermi Liquid Description / 10.9:
Marginal Fermi Liquid Behavior / 10.9.1:
Charged and Neutral Quasiparticles / 10.9.2:
Hubbard Chains / 10.9.3:
Quantum Critical Point / 10.9.4:
Transition Metals / 11:
Ground-State Wavefunction / 11.1:
Satellite Structures / 11.2:
Temperature-Dependent Magnetism / 11.3:
Local Spin Fluctuations / 11.3.1:
Long-Wavelength Spin Fluctuations / 11.3.2:
Transition-Metal Oxides / 12:
Doped Charge-Transfer Systems: the Cuprates / 12.1:
Quasiparticle-like Excitations / 12.1.1:
Orbital Ordering / 12.2:
Manganites: LaMnO3 and related Compounds / 12.2.1:
Vanadates: LaVO3 / 12.2.2:
Ladder Systems: αÆ-NaV2O5 / 12.2.3:
Other Oxides / 12.2.4:
Heavy Quasiparticles / 13:
Kondo Lattice Systems / 13.1:
Renormalized Band Theory / 13.1.1:
Large Versus Small Fermi Surface / 13.1.2:
Mean-Field Treatment / 13.1.3:
Charge Ordering in Yb4As3: an Instructive Example / 13.2:
Partial Localization: Dual Role of 5f Electrons / 13.3:
Heavy d Electrons: LiV2O4 / 13.4:
Excitations with Fractional Charges / 14:
Trans-Polyacetylene / 14.1:
Fractional Quantum Hall Effect / 14.2:
Correlated Electrons on Frustrated Lattices / 14.3:
Loop Models / 14.3.1:
Dimer Models / 14.3.2:
Mapping to a U(1) Gauge Theory / 14.3.3:
Magnetic Monopoles / 14.3.4:
Superconductivity / 15:
The Superconducting State / 15.1:
Pair States / 15.1.1:
BCS Ground State / 15.1.2:
Cooper Pair Breaking / 15.2:
Ergodic vs. Nonergodic Perturbations / 15.2.1:
Pairing Electrons with Population Imbalance / 15.2.2:
Cooper Pairing without Phonons / 15.3:
Filled Skutterudite PrOs4Sb12 / 15.3.1:
UPd2Al3: Pairing and Time-Reversal Symmetry Breaking / 15.3.2:
Magnetic Resonances / 15.4:
High-Tc Superconductors / 15.5:
Suppression of Antiferromagnetic Order by Holes / 15.5.1:
Pseudogap Regime / 15.5.2:
Strange Metal / 15.5.3:
Optical Properties: Drude Peak / 15.5.4:
Pairing Interactions / 15.5.5:
Stripe Formation / 15.5.6:
Some Relations for Cumulants / A:
Scattering Matrix in Single-Centre and Two-Centre Approximation / B:
Intra-atomic Correlations in a C Atom / C:
Landau Parameter: Quasiparticle Mass / D:
Kondo Lattices: Quasiparticle Interactions / E:
Lanczos Method / F:
Density Matrix Renormalization Group / G:
Monte Carlo Methods / H:
Sampling Techniques / H.1:
Ground-State Energy / H.2:
Computing the Memory Function by Increments / I:
Kagome Lattice at 1/3 Filling / J:
References
Index
Ladder Systems: α'-NaV2O5
Charge Ordering in Yb4As3: an Instructive Example
Filled Skutterudite PrOs4Sb12
Strange-Metal
1 Sampling Techniques
2 Ground-State Energy
Introduction / 1:
Independent Electrons / 2:
Many-Electron Hamiltonian / 2.1:
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