## Quantum mechanicsThis didactically unrivalled textbook and timeless reference by Nobel Prize Laureate Claude Cohen-Tannoudji separates essential underlying principles of quantum mechanics from specific applications and practical examples and deals with each of them in a different section. Chapters emphasize principles; complementary sections supply applications. The book provides a qualitative introduction to quantum mechanical ideas; a systematic, complete and elaborate presentation of all the mathematical tools and postulates needed, including a discussion of their physical content and applications. The book is recommended on a regular basis by lecturers of undergraduate courses. |

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#### LibraryThing Review

User Review - aproustian - LibraryThingCohen-Tannoudji is comprehensive as a reference, but not as useful as a textbook. However, since it's the classic choice for graduate quantum mechanics, it's good to experience it. Read full review

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this is not a good book for students as me. I can't afford this. it is highly expensive

### Contents

An elementary approach to the quantum theory | 900 |

B Stationary scattering states Calculation of the cross section | 907 |

Scattering by a central potential Method of partial waves | 921 |

Copyright | |

26 other sections not shown

### Other editions - View all

Quantum Mechanics, 2 Volume Set Claude Cohen-Tannoudji,Bernard Diu,Frank Laloe No preview available - 1992 |

### Common terms and phrases

amplitude analogous approximation associated assume basis Bohr calculate central potential chap chapter VIII Clebsch-Gordan coefficients collision commute complement components Consider constant corresponding coupling cross section degeneracy degenerate depends diagonal effect eigenstates eigenvalues eigenvectors electric dipole energy levels equal equation example expansion expression fermions field B0 figure formula free spherical waves Hamiltonian hydrogen atom hyperfine structure identical particles integral interaction kets magnetic field matrix elements mean value momenta multipole non-zero nucleus obtain operator orthogonal orthonormal oscillator partial waves permutation perturbation theory phase shifts physical plane wave polarization positive probability probability amplitude problem properties proton quantum mechanics quantum numbers radial relation represents resonance respect rotation scalar solution space spherical harmonics spin 1/2 particles spinor stationary subspace symmetrization term theorem total angular momentum variables variational method vector wave function wave packet Wigner-Eckart theorem written Zeeman Zeeman effect zero