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Classical field theory : electromagnetism and gravitation / / Francis E. Low
| Classical field theory : electromagnetism and gravitation / / Francis E. Low |
| Autore | Low Francis E. <1921-2007, > |
| Pubbl/distr/stampa | Weinheim, : Wiley-VCH, c2004 |
| Descrizione fisica | 1 online resource (441 p.) |
| Disciplina |
530.1
530.1/41 530.14 530.141 |
| Collana | Physics textbook |
| Soggetto topico |
Electromagnetic fields
Gravitational fields |
| ISBN |
1-281-76439-6
9786611764395 3-527-61745-0 3-527-61746-9 |
| Classificazione |
421.3
427 530.1/41 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | und |
| Nota di contenuto |
CLASSICAL FIELD THEORY ELECTROMAGNETISM AND GRAVITATION; Contents; Preface; 1. Electrostatics; 1.1. Coulomb's Law; 1.2. Multipoles and Multipole Fields; 1.3. Energy and Stress in the Electrostatic Field; 1.4. Electrostatics in the Presence of Conductors: Solving for Electrostatic Configurations; 1.5. Systems of Conductors; 1.6. Electrostatic Fields in Matter; 1.7. Energy in a Dielectric Medium; Problems; 2. Steady Currents and Magnetostatics; 2.1. Steady Currents; 2.2. Magnetic Fields; 2.3. Magnetic Multipoles; 2.4. Magnetic Fields in Matter
2.5. Motional Electromotive Force and Electromagnetic Induction2.6. Magnetic Energy and Force; 2.7. Diamagnetism; Problems; 3. Time-Dependent Fields and Currents; 3.1. Maxwell's Equations; 3.2. Electromagnetic Fields in Matter; 3.3. Momentum and Energy; 3.4. Polarizability and Absorption by Atomic Systems; 3.5. Free Fields in Isotropic Materials; 3.6. Reflection and Refraction; 3.7. Propagation in Anisotropic Media; 3.8. Helicity and Angular Momentum; Problems; 4. Radiation by Prescribed Sources; 4.1. Vector and Scalar Potentials; 4.2. Green's Functions for the Radiation Equation 4.3. Radiation from a Fixed Frequency Source4.4. Radiation by a Slowly Moving Point Particle; 4.5. Electric and Magnetic Dipole and Electric Quadrupole Radiation; 4.6. Fields of a Point Charge Moving at Constant High Velocity v: Equivalent Photons; 4.7. A Point Charge Moving with Arbitrary Velocity Less Than c: The Liénard-Wiechert Potentials; 4.8. Low-Frequency Bremsstrahlung; 4.9. Liénard-Wiechert Fields; 4.10. Cerenkov Radiation; Problems; 5. Scattering; 5.1. Scalar Field; 5.2. Green's Function for Massive Scalar Field; 5.3. Formulation of the Scattering Problem; 5.4. The Optical Theorem 5.5. Digression on Radial Wave Functions5.6. Partial Waves and Phase Shifts; 5.7. Electromagnetic Field Scattering; 5.8. The Optical Theorem for Light; 5.9. Perturbation Theory of Scattering; 5.10. Vector Multipoles; 5.11. Energy and Angular Momentum; 5.12. Multipole Scattering by a Dielectric; Problems; 6. Invariance and Special Relativity; 6.1. Invariance; 6.2. The Lorentz Transformation; 6.3. Lorentz Tensors; 6.4. Tensor Fields: Covariant Electrodynamics; 6.5. Equations of Motion for a Point Charge in an Electromagnetic Field; 6.6. Relativistic Conservation Laws; Problems 7. Lagrangian Field Theory7.1. Review of Lagrangians in Mechanics; 7.2. Relativistic Lagrangian for Particles in a Field; 7.3. Lagrangian for Fields; 7.4. Interacting Fields and Particles; 7.5. Vector Fields; 7.6. General Covariance; 7.7. Local Transformation to a Pseudo-Euclidean System; 7.8. Alternative Construction of a Covariantly Conserved, Symmetric Stress-Energy Tensor; Problems; 8. Gravity; 8.1. The Nature of the Gravitational Field; 8.2. The Tensor Field; 8.3. Lagrangian for the Gravitational Field; 8.4. Particles in a Gravitational Field; 8.5. Interaction of the Gravitational Field 8.6. Curvature |
| Record Nr. | UNISA-996203216203316 |
Low Francis E. <1921-2007, >
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| Weinheim, : Wiley-VCH, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
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An introduction to advanced quantum physics / / Hans P. Paar
| An introduction to advanced quantum physics / / Hans P. Paar |
| Autore | Paar Hans P |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2010 |
| Descrizione fisica | 1 online resource (225 p.) |
| Disciplina | 530.12 |
| Collana | New York Academy of Sciences |
| Soggetto topico |
Nonlinear theories
Quantum theory |
| ISBN |
9786612686818
9781282686816 128268681X 9780470686751 0470686758 9780470665091 0470665092 |
| Classificazione |
421.3
530.12 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
An Introduction to Advanced Quantum Physics; Contents; Preface; PART 1 Relativistic Quantum Physics; 1 Electromagnetic Radiation and Matter; 1.1 Hamiltonian and Vector Potential; 1.2 Second Quantization; 1.2.1 Commutation Relations; 1.2.2 Energy; 1.2.3 Momentum; 1.2.4 Polarization and Spin; 1.2.5 Hamiltonian; 1.3 Time-Dependent Perturbation Theory; 1.4 Spontaneous Emission; 1.4.1 First Order Result; 1.4.2 Dipole Transition; 1.4.3 Higher Multipole Transition; 1.5 Blackbody Radiation; 1.6 Selection Rules; Problems; 2 Scattering; 2.1 Scattering Amplitude and Cross Section; 2.2 Born Approximation
2.2.1 Schrodinger Equation 2.2.2 Green's Function Formalism; 2.2.3 Solution of the Schrodinger Equation; 2.2.4 Born Approximation; 2.2.5 Electron-Atom Scattering; 2.3 Photo-Electric Effect; 2.4 Photon Scattering; 2.4.1 Amplitudes; 2.4.2 Cross Section; 2.4.3 Rayleigh Scattering; 2.4.4 Thomson Scattering; Problems; 3 Symmetries and Conservation Laws; 3.1 Symmetries and Conservation Laws; 3.1.1 Symmetries; 3.1.2 Conservation Laws; 3.2 Continuous Symmetry Operators; 3.2.1 Translations; 3.2.2 Rotations; 3.3 Discrete Symmetry Operators; 3.4 Degeneracy; 3.4.1 Example; 3.4.2 Isospin; Problems 4 Relativistic Quantum Physics 4.1 Klein-Gordon Equation; 4.2 Dirac Equation; 4.2.1 Derivation of the Dirac Equation; 4.2.2 Probability Density and Current; 4.3 Solutions of the Dirac Equation, Anti-Particles; 4.3.1 Solutions of the Dirac Equation; 4.3.2 Anti-Particles; 4.4 Spin, Non-Relativistic Limit and Magnetic Moment; 4.4.1 Orbital Angular Momentum; 4.4.2 Spin and Total Angular Momentum; 4.4.3 Helicity; 4.4.4 Non-Relativistic Limit; 4.5 The Hydrogen Atom Re-Revisited; Problems; 5 Special Topics; 5.1 Introduction; 5.2 Measurements in Quantum Physics; 5.3 Einstein-Podolsky-Rosen Paradox 5.4 Schrodinger's Cat 5.5 The Watched Pot; 5.6 Hidden Variables and Bell's Theorem; Problems; PART 2 Introduction to Quantum Field Theory; 6 Second Quantization of Spin 1/2 and Spin 1 Fields; 6.1 Second Quantization of Spin 12 Fields; 6.1.1 Plane Wave Solutions; 6.1.2 Normalization of Spinors; 6.1.3 Energy; 6.1.4 Momentum; 6.1.5 Creation and Annihilation Operators; 6.2 Second Quantization of Spin 1 Fields; Problems; 7 Covariant Perturbation Theory and Applications; 7.1 Covariant Perturbation Theory; 7.1.1 Hamiltonian Density; 7.1.2 Interaction Representation 7.1.3 Covariant Perturbation Theory 7.2 W and Z Boson Decays; 7.2.1 Amplitude; 7.2.2 Decay Rate; 7.2.3 Summation over Spin; 7.2.4 Integration over Phase Space; 7.2.5 Interpretation; 7.3 Feynman Graphs; 7.4 Second Order Processes and Propagators; 7.4.1 Annihilation and Scattering; 7.4.2 Time-Ordered Product; Problems; 8 Quantum Electrodynamics; 8.1 Electron-Positron Annihilation; 8.2 Electron-Muon Scattering; Problems; Index |
| Record Nr. | UNINA-9910968141303321 |
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Paar Hans P
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| Hoboken, N.J., : Wiley, 2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Quantum field theory : from operators to path integrals / / Kerson Huang
| Quantum field theory : from operators to path integrals / / Kerson Huang |
| Autore | Huang Kerson <1928-> |
| Pubbl/distr/stampa | Weinheim, : Wiley-VCH, c2004 |
| Descrizione fisica | 1 online resource (448 p.) |
| Disciplina |
530.143
539.72 |
| Soggetto topico | Quantum field theory |
| ISBN |
1-281-84307-5
9786611843076 3-527-61737-X 3-527-61738-8 |
| Classificazione |
421.3
530.14/3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
QUANTUM FIELD THEORY; Contents; Preface; Acknowledgment; 1. Introducing Quantum Fields; 1.1. The Classical String; 1.2. The Quantum String; 1.3. Second Quantization; 1.4. Creation and Annihilation Operators; 1.5. Bose and Fermi Statistics; Problems; References; 2. Scalar Fields; 2.1. Klein-Gordon Equation; 2.2. Real Scalar Field; 2.3. Energy and Momentum; 2.4. Particle Spectrum; 2.5. Continuum Normalization; 2.6. Complex Scalar Field; 2.7. Charge and Antiparticle; 2.8. Microcausality; 2.9. The Feynman Propagator; 2.10. The Wave Functional; 2.11. Functional Operations
2.12. Vacuum Wave Functional2.13. The Φ4 Theory; Problems; 3. Relativistic Fields; 3.1. Lorentz Transformations; 3.2. Minimal Representation: SL(2C); 3.3. The Poincaré Group; 3.4. Scalar, Vector, and Spinor Fields; 3.5. Relativistic Quantum Fields; 3.6. One-Particle States; Problems; Reference; 4. Canonical Formalism; 4.1. Principle of Stationary Action; 4.2. Noether's Theorem; 4.3. Translational Invariance; 4.4. Lorentz Invariance; 4.5. Symmetrized Energy-Momentum Tensor; 4.6. Gauge Invariance; Problems; Reference; 5. Electromagnetic Field; 5.1. Maxwell's Equations 5.2. Covariance of the Classical Theory5.3. Canonical Formalism; 5.4. Quantization in Coulomb Gauge; 5.5. Spin Angular Momentum; 5.6. Intrinsic Parity; 5.7. Transverse Propagator; 5.8. Vacuum Fluctuations; 5.9. The Casimir Effect; 5.10. The Gauge Principle; Problems; References; 6. Dirac Equation; 6.1. Dirac Algebra; 6.2. Wave Functions and Current Density; 6.3. Plane Waves; 6.4. Lorentz Transformations; 6.5. Interpretation of Dirac Matrices; 6.6. External Electromagnetic Field; 6.7. Nonrelativistic Limit; 6.8. Thomas Precession; 6.9. Hole Theory; 6.10. Charge Conjugation 6.11 Massless ParticlesProblems; References; 7. The Dirac Field; 7.1. Quantization of the Dirac Field; 7.2. Feynman Propagator; 7.3. Normal Ordering; 7.4. Electromagnetic Interactions; 7.5. Isospin; 7.6. Parity; 7.7. Charge Conjugation; 7.8. Time Reversal; Problems; Reference; 8. Dynamics of Interacting Fields; 8.1. Time Evolution; 8.2. Interaction Picture; 8.3. Adiabatic Switching; 8.4. Correlation Functions in the Interaction Picture; 8.5. S Matrix and Scattering; 8.6. Scattering Cross Section; 8.7. Potential Scattering; 8.8. Adiabatic Theorem; Problems; References.; 9. Feynman Graphs 9.1. Perturbation Theory9.2. Time-Ordered and Normal Products; 9.3. Wick'sTheorem; 9.4. Feynman Rules for Scalar Theory; 9.5. Types of Feynman Graphs; 9.5.1. Vacuum Graph; 9.5.2. Self-Energy Graph; 9.5.3. Connected Graph; 9.6. Wick Rotation; 9.7. Regularization Schemes; 9.8. Linked-Cluster Theorem; 9.9. Vacuum Graphs; Problems; Reference.; 10. Vacuum Correlation Functions; 10.1. Feynman Rules; 10.2. Reduction Formula; 10.3. The Generating Functional; 10.4. Connected Correlation Functions; 10.5. Lehmann Representation; 10.6. Dyson-Schwinger Equations; 10.7. Bound States 10.8. Bethe-Salpeter Equation |
| Record Nr. | UNISA-996203199603316 |
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Huang Kerson <1928->
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| Weinheim, : Wiley-VCH, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
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Quantum mechanics [[electronic resource] ] : fundamentals and applications to technology / / Jasprit Singh
| Quantum mechanics [[electronic resource] ] : fundamentals and applications to technology / / Jasprit Singh |
| Autore | Singh Jasprit |
| Pubbl/distr/stampa | New York, : Wiley, c1997 |
| Descrizione fisica | 1 online resource |
| Collana | Physics textbook |
| Soggetto topico |
Physics
Quantum theory |
| ISBN |
9783527618200
3527618201 9783527618194 |
| Classificazione |
421.3
429.1 530.1/2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910795970003321 |
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Singh Jasprit
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| New York, : Wiley, c1997 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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マンガでわかる量子力学
| マンガでわかる量子力学 |
| Pubbl/distr/stampa | 東京, : オーム社, 2009.12 |
| Descrizione fisica | オンライン資料1件 |
| Altri autori (Persone) |
石川憲二
柊ゆたか 川端潔 |
| Soggetto topico | 量子力学 |
| ISBN |
9784274802300
4274802302 |
| Classificazione | 421.3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | jpn |
| Nota di contenuto | 表紙 -- クレジット -- まえがき -- 監修のことば -- 目次 -- 人物紹介 -- プロローグ 一寸法師とおやゆび姫 -- 一寸法師のストーリー -- おやゆび姫のストーリー -- 量子力学って、いったいなんだ? -- 第1章 「半分の半分の半分...」は? -- 1-1 永遠に終わらないパラドックス -- コラム アキレスと亀の解説 -- 1-2 分子や原子は本当にあるのか? -- 1-3 目に見えない原子を探っていこう! -- コラム 「小さな世界を見る技術」への挑戦 その1 顕微鏡発達の歴史 -- もし「元素」や「原子」がなかったら? -- コラム 古代ギリシャ以外の元素論、原子論 -- 第2章 原子が「アトム」ではなくなったとき -- 2-1 原子の組み合わせで物はできる -- 元素周期表 -- 2-2 天才化学者ラヴォアジエの功績 -- 元素周期表 応用編 -- フリダシに戻ってしまったアトムへの旅 -- コラム 「小さな世界を見る技術」への挑戦 その2 原子を見ることのできる顕微鏡がある! -- 第3章 原子の中はどうやって探る? -- 3-1 電気の子供「電子」の発見 -- 3-2 トムソンと長岡半太郎の原子モデル -- コラム 日本の物理学の祖 長岡半太郎博士の偉大な業績 -- 3-3 ラザフォードが突きとめた原子核 -- 電子から陽子、中性子そしてクォークの世界へ -- 第4章 量子力学がなければ原子は壊れてしまう -- 4-1 原子の構造は天体とは違う -- 4-2 電子はボールのように落ちてこない -- 4-3 ボーアの原子モデル -- なぜボーアが「量子力学の父」になったのか? -- 第5章 物質の正体を突きつめていくとオバケになる? -- 5-1 ド・ブロイの奇妙な発想 -- 5-2 シュレーディンガーvs.ハイゼンベルク -- シュレーディンガー方程式入門のための高校数学の復習 -- シュレーディンガー方程式入門のための高校物理の復習 -- 特別講義 誰でもちょっとはわかった気になる(かもしれない) シュレーディンガー方程式 -- 5-3 「電子はどこにあるか?」が波の正体 -- 5-4 「どこにいるか?」「どう動いているか?」は同時にはわからない -- エピローグ 量子力学は「他の世界」にも及んでいる -- コラム 超ひも理論についての超簡単説明 -- コペンハーゲン解釈から多世界解釈へ -- コラム 量子力学は私たちの生活にどう関わってくるのか? その1 トンネル効果がなければ家電品はつくれない -- コラム 量子力学は私たちの生活にどう関わってくるのか? その2 量子通信、量子コンピュータ、量子暗号......量子がいっぱい! -- コラム 量子力学の隠れたヒーロー 電子のスピンを唱えたパウリ -- 巻末付録 シュレーディンガー方程式を解いてみよう! -- 量子論・量子力学の系譜 -- 参考文献 -- 索引 -- 著者紹介 -- 奥付. |
| Altri titoli varianti | 量子力学 : マンガでわかる |
| Record Nr. | UNINA-9910149148503321 |
| 東京, : オーム社, 2009.12 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||