Normal view MARC view ISBD view

Quantum mechanics/ Albert Messiah.

By: Messiah, AlbertMaterial type: Text

TextPublication details: New York: Dover, 1999Description: xxi, 1136 p. : ill. ; 22 cmISBN: 9780486409245Subject(s): Quantum theoryDDC classification: 530.12

Contents:

Contents of Volume I Part 1. The formalism and its Interpretation Chapter 1. The origins of the quantum theory 1. The end of the classical period 2. Light quanta or photons 3. Quantization of material systems 4. Correspondence principle and the old quantum theory Chapter 2. Matter Waves and the Schrodinger Equation 1. Matter waves 2. The Schrodinger Equation 3. The time-independent Schrodinger equation Chapter 3. One-Dimensional Quantized Systems 1. Square potentials 2. General properties of the one-dimensional Schrodinger equation Chapter 4. Statistical Interpretation of the wave-corpuscle duality and the uncertainty relations 1. Statistical interpretation of the wave functions of wave mechanics 2. Heisenberg's uncertainty relations 3. Uncertainty relations and the measurement process 4. Description of phenomena in quantum theory. Complementarity and causality Chapter 5. Development of the formalism of wave mechanics and its interpretation 1. Hermitean operators and physical quantities 2. Study of the discrete spectrum 3. Statistics of measurement in the general case 4. Determination of the wave function 5. Commutator algebra and its applications Chapter 6. Classical Approximation and the WKB Method 1. The classical limit of wave mechanics 2. The WKB method Chapter 7. General Formalism of the quantum theory: (A) Mathematical framework 1. Vectors and operators 2. Hermitean operators, projectors, and observables 3. Representation theory Chapter 8. General Formalism: (B) Description of physical phenomena 1. Dynamical states and physical quantities 2. The equations of motion 3. Various representations of the theory 4. Quantum statistics Part 2. Simple Systems Chapter 9. Solution of the Schrodinger Equation by Separation of variables. Central potential 1. Particle in a central potential. General treatment 2. Central square-well potential. Free particle 3. Two-body problems. Separation of the center-of-mass motion Chapter 10. Scattering problems. Central potential and phase-shift method 1. Cross sections and scattering amplitudes 2. Scattering by a central potential. Phase shifts 3. Potential of finite range 4. Scattering resonances 5. Various formulae and properties Chapter 11. The Coulomb interaction 1. The hydrogen atom 2. Coulomb scattering Chapter 12. The harmonic oscillator 1. Eigenstates and eigenvectors of the Hamiltonian 2. Applications and various properties 3. Isotropic harmonic oscillators in several dimensions Appendix A. Distributions, sigma-"function" and Fourier transformation Appendix B. Special functions and associated formulae Contents of Volume II Part 3. Symmetries and Invariance Chapter 13. Angular momentum in quantum mechanics 1. Eigenvalues and eigenfunctions of angular momentum 2. Orbital angular momentum and the spherical harmonics 3. Angular momentum and rotations 4. Spin 5. Addition of angular momenta 6. Irreducible tensor operators Chapter 14. Systems of identical particles. Pauli exclusion principle 1. Symmetrization postulate 2. Applications Chapter 15. Invariance and conservation theorems. Time reversal 1. Mathematical complements. Antilinear operators 2. Transformations and groups of transformations 3. Invariance of the equations of motion and conservation laws 4. Time reversal and the principle of microreversibility Part 4. Methods of Approximation Chapter 16. Stationary Perturbations 1. Perturbation of a non-degenerate level 2. Perturbation of a degenerate level 3. Explicit forms for the perturbation expansion in all orders Chapter 17. Approximate solutions of the time-dependent Schrodinger equation 1. Time dependent perturbation theory 2. Sudden or adiabatic change of the hamiltonian Chapter 18. The variational method and associated problems 1. Variational method for bound states 2. The Hartree and Fock-Dirac atoms 3. The structure of molecules Chapter 19. Collision theory 1. Free wave Green's function and the Born approximation 2. Generalization to distorted waves 3. Complex collisions and the Born approximation 4. Variational calculations of transition amplitudes 5. General properties of the transition matrix Part 5. Elements of Relativistic quantum mechanics Chapter 20. The Dirac equation 1. General Introduction 2. The Dirac and Klein-Gordon equations 3. Invariance properties of the Dirac equation 4. Interpretation of the operators and simple solutions 5. Non-relativistic limit of the Dirac equation 6. Negative energy solutions and positron theory Chapter 21. Field quantization. Radiation theory 1. Quantization of a real scalar field 2. Coupling with an atomic system 3. Classical theory of electromagnetic radiation 4. Quantum theory of radiation Appendix C. Vector addition coefficients and rotation matrices Appendix D. Elements of group theory General Index

Tags from this library: No tags from this library for this title. Log in to add tags.

Average rating: 0.0 (0 votes)

Holdings ( 1 )
Title notes ( 1 )
Comments ( 0 )

Holdings
Item type	Current library	Call number	Status	Notes	Date due	Barcode	Item holds
General Books Science Library	Science Library, Sikkim University Science Library General Section	530.12 MES/ (Browse shelf(Opens below))	Available	Books For SU Science Library		P05910

Total holds: 0

Contents of Volume I
Part 1. The formalism and its Interpretation
Chapter 1. The origins of the quantum theory
1. The end of the classical period
2. Light quanta or photons
3. Quantization of material systems
4. Correspondence principle and the old quantum theory
Chapter 2. Matter Waves and the Schrodinger Equation
1. Matter waves
2. The Schrodinger Equation
3. The time-independent Schrodinger equation
Chapter 3. One-Dimensional Quantized Systems
1. Square potentials
2. General properties of the one-dimensional Schrodinger equation
Chapter 4. Statistical Interpretation of the wave-corpuscle duality and the uncertainty relations
1. Statistical interpretation of the wave functions of wave mechanics
2. Heisenberg's uncertainty relations
3. Uncertainty relations and the measurement process
4. Description of phenomena in quantum theory. Complementarity and causality
Chapter 5. Development of the formalism of wave mechanics and its interpretation
1. Hermitean operators and physical quantities
2. Study of the discrete spectrum
3. Statistics of measurement in the general case
4. Determination of the wave function
5. Commutator algebra and its applications
Chapter 6. Classical Approximation and the WKB Method
1. The classical limit of wave mechanics
2. The WKB method
Chapter 7. General Formalism of the quantum theory: (A) Mathematical framework
1. Vectors and operators
2. Hermitean operators, projectors, and observables
3. Representation theory
Chapter 8. General Formalism: (B) Description of physical phenomena
1. Dynamical states and physical quantities
2. The equations of motion
3. Various representations of the theory
4. Quantum statistics
Part 2. Simple Systems
Chapter 9. Solution of the Schrodinger Equation by Separation of variables. Central potential
1. Particle in a central potential. General treatment
2. Central square-well potential. Free particle
3. Two-body problems. Separation of the center-of-mass motion
Chapter 10. Scattering problems. Central potential and phase-shift method
1. Cross sections and scattering amplitudes
2. Scattering by a central potential. Phase shifts
3. Potential of finite range
4. Scattering resonances
5. Various formulae and properties
Chapter 11. The Coulomb interaction
1. The hydrogen atom
2. Coulomb scattering
Chapter 12. The harmonic oscillator
1. Eigenstates and eigenvectors of the Hamiltonian
2. Applications and various properties
3. Isotropic harmonic oscillators in several dimensions
Appendix A. Distributions, sigma-"function" and Fourier transformation
Appendix B. Special functions and associated formulae
Contents of Volume II
Part 3. Symmetries and Invariance
Chapter 13. Angular momentum in quantum mechanics
1. Eigenvalues and eigenfunctions of angular momentum
2. Orbital angular momentum and the spherical harmonics
3. Angular momentum and rotations
4. Spin
5. Addition of angular momenta
6. Irreducible tensor operators
Chapter 14. Systems of identical particles. Pauli exclusion principle
1. Symmetrization postulate
2. Applications
Chapter 15. Invariance and conservation theorems. Time reversal
1. Mathematical complements. Antilinear operators
2. Transformations and groups of transformations
3. Invariance of the equations of motion and conservation laws
4. Time reversal and the principle of microreversibility
Part 4. Methods of Approximation
Chapter 16. Stationary Perturbations
1. Perturbation of a non-degenerate level
2. Perturbation of a degenerate level
3. Explicit forms for the perturbation expansion in all orders
Chapter 17. Approximate solutions of the time-dependent Schrodinger equation
1. Time dependent perturbation theory
2. Sudden or adiabatic change of the hamiltonian
Chapter 18. The variational method and associated problems
1. Variational method for bound states
2. The Hartree and Fock-Dirac atoms
3. The structure of molecules
Chapter 19. Collision theory
1. Free wave Green's function and the Born approximation
2. Generalization to distorted waves
3. Complex collisions and the Born approximation
4. Variational calculations of transition amplitudes
5. General properties of the transition matrix
Part 5. Elements of Relativistic quantum mechanics
Chapter 20. The Dirac equation
1. General Introduction
2. The Dirac and Klein-Gordon equations
3. Invariance properties of the Dirac equation
4. Interpretation of the operators and simple solutions
5. Non-relativistic limit of the Dirac equation
6. Negative energy solutions and positron theory
Chapter 21. Field quantization. Radiation theory
1. Quantization of a real scalar field
2. Coupling with an atomic system
3. Classical theory of electromagnetic radiation
4. Quantum theory of radiation
Appendix C. Vector addition coefficients and rotation matrices
Appendix D. Elements of group theory
General Index

There are no comments on this title.

to post a comment.