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Produktbild: Solution Manual to Accompany Volume II of Quantum Mechanics by Cohen-Tannoudji, Diu and Laloë
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Solution Manual to Accompany Volume II of Quantum Mechanics by Cohen-Tannoudji, Diu and Laloë

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Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

07.08.2024

Verlag

Wiley-VCH

Seitenzahl

352

Maße (L/B/H)

24,3/17,4/2,2 cm

Gewicht

672 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-41423-9

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

07.08.2024

Verlag

Wiley-VCH

Seitenzahl

352

Maße (L/B/H)

24,3/17,4/2,2 cm

Gewicht

672 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-41423-9

Herstelleradresse

Wiley-VCH GmbH
Boschstraße 12
69469 Weinheim
DE

Email: wiley-vch@kolibri360.de

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  • Produktbild: Solution Manual to Accompany Volume II of Quantum Mechanics by Cohen-Tannoudji, Diu and Laloë

  • 8 Solutions to the Exercises of Chapter VIII (Complement CVIII, 3). An Elementary Approach to the Quantum Theory of Scattering by a Potential 1

    8.1 Scattering of the p Wave by a Hard Sphere 1

    8.2 "Square Spherical Well": Bound States and Scattering Resonances 6

    9 Solutions to the Exercises of Chapter IX (Complement BIX). Electron Spin 21

    9.1 Spin-Related Measurements of a Particle of Spin 1/2 21

    9.2 An Operator Coupling Momentum P and Spin S 26

    9.3 The Pauli Hamiltonian 29

    9.4 Polarization of a Neutron Beam by Reflection 31

    10 Solutions to the Exercises of Chapter X (Complement GX). Addition of Angular Momenta 43

    10.1 The Deuterium Atom 43

    10.2 The Hydrogen Atom 45

    10.3 Two-Particle System 49

    10.4 Disintegration of a Particle 52

    10.5 Three-Particle System 56

    10.6 Two-Particle System and Collision 59

    10.7 Standard Components of a Vector Operator 71

    10.8 Irreducible Tensor Operators; Wigner-Eckart Theorem 79

    10.9 Irreducible Tensor Operators (Follow-up Exercise) 90

    10.10 Addition of Three Angular Momenta 95

    References 103

    11 Solutions to the Exercises of Chapter XI (Complement HXI). Stationary Perturbation Theory 105

    11.1 Punctual Perturbation in an Infinite One-Dimensional Well 105

    11.2 Localized Perturbation in an Infinite Two-Dimensional Well 110

    11.3 Perturbations in a Two-Dimensional Harmonic Oscillator 114

    11.4 Perturbed Circular Motion of a Quantum System 127

    11.5 Three-Dimensional Perturbation 136

    11.6 One Electronic and Two Nuclear Spins, Spin-Spin Interactions 143

    11.7 Interaction Between a Nuclear Spin and an Electric Field via its Electric Quadrupole and Magnetic Dipole Moments 152

    11.8 Linear Perturbation Within an Infinite One-Dimensional Well and Variational Method 163

    11.9 The Hydrogen Atom and the Variational Method 171

    11.10 Determination of the Energies of a Particle in an Infinite One-Dimensional Well Using the Variational Method 173

    12 Solutions to the Exercises of Chapter XII. An Application of Perturbation Theory: The Fine and Hyperfine Structure of Hydrogen 183

    13 Solutions to the Exercises of Chapter XIII. Approximation Methods for Time-Dependent Problems 185

    Part I: Solutions to the Exercises of Complement BXIII .Linear and Nonlinear Responses of a Two-Level System Subjected to a Sinusoidal Perturbation 185

    13.1 Competition Between Pumping and Relaxation in a Two-Level System 185

    13.2 Nonlinear Response of a Two-Level System Subjected to a Sinusoidal Perturbation 189

    Part II: Solutions to the Exercises of Complement FXIII 198

    13.1 One-Dimensional Harmonic Oscillator Subjected to an Electric Field Pulse 198

    13.2 Spin-Spin Interactions During a Collision 205

    13.3 Two-Photon Transitions Between Non-equidistant Levels 211

    13.4 Magnetic Response of a System Placed in an Oscillating Magnetic Field 216

    13.5 The Autler-Townes Effect 220

    13.6 Elastic Scattering by a Particle in a Bound State. Form Factor 229

    13.7 A Simple Model of the Photoelectric Effect 234

    13.8 Disorientation of an Atomic Level due to Collisions with Noble Gas Atoms 239

    13.9 Transition Probability per Unit Time Under the Effect of a Random Perturbation. Simple Relaxation Model 245

    13.10 Absorption of Radiation by a Many-Particle System Forming a Bound State. The Doppler Effect. Recoil Energy. The Mössbauer Effect 252

    References 270

    14 Solutions to the Exercises of Chapter XIV (Complement DXIV). Systems of Identical Particles 271

    14.1 Energy Levels of a System of Three Identical Particles 271

    14.2 Two Identical Bosons in a Central Potential 275

    14.3 Identical Electrons in Hybrid Atomic Orbitals 278

    14.4 Collision Between Two Identical Particles 282

    14.5 Collision Between Two Identical Unpolarized Particles 289

    14.6 Possible Values of the Relative Angular Momentum of Two Identical Particles 292

    14.7 Position Probability Densities for a System of Two Identical Particles 302

    14.8 Symmetrization and Measurements 311

    14.9 One- and Two-Particle Density Functions in an Electron Gas at Absolute Zero 321

    Bibliography 339