More Than One Mystery: Explorations in Quantum InterferenceSpringer Science & Business Media, 6 дек. 2012 г. - Всего страниц: 212 "I think I can safely say that nobody understands quantum mechanics." #Richard Feynman# Basing his discussion on a small number of conceptually simple models (the two-level atom, the two-slit interferometer), the author addresses a number of conceptually interesting questions concerning the puzzles of quantum mechanics. Though the phenomena arising from quantum interference are central, he maintains that they are not the only mystery in quantum mechanics: the deep connection between spin and the statistics of identical particles, the "ghostly" long-range effects that correlated particles exert on each other, and the perplexing role of topology in the interactions of charged particles and electromagnetic fields, are all conundrums yet to be understood. |
Содержание
Preface | 1 |
CHAPTER 4 | 103 |
19 | 128 |
CHAPTER 5 | 129 |
35 | 153 |
41 | 160 |
48 | 166 |
68 | 174 |
75 | 180 |
CHAPTER 6 | 184 |
90 | 186 |
209 | |
210 | |
Другие издания - Просмотреть все
More than one mystery: explorations in quantum interference : with 51 ... Mark P. Silverman Ограниченный просмотр - 1995 |
More Than One Mystery: Explorations in Quantum Interference Mark P. Silverman Просмотр фрагмента - 1995 |
More Than One Mystery: Explorations in Quantum Interference Mark P. Silverman Просмотр фрагмента - 1995 |
Часто встречающиеся слова и выражения
amplitudes angular frequency angular momentum approximation axis beam charged particles chiral classical coherence component configuration correlated corresponding coupled D₁ D₂ decay degeneracy density matrix detection detector diagonal diffraction Dirac effect eigenstates eigenvalues electric and magnetic electric dipole electric field electric resonance electromagnetic electron emission energy example excited experiment experimental expression fermion field-free Figure Hamiltonian hydrogen atom interaction regions interferometer ions laser light linear linearly polarized M.P. Silverman magnetic dipole magnetic field magnetic flux Mathieu functions matrix elements n₁ neutron observed optical activity optical rotation oscillating field oscillatory parameter parity path perturbation theory phase factor phase shift photon Phys physical planar rotator probability propagating pulse quantum beats quantum interference quantum mechanics quantum number radiation relation relative phase representation rotating-field Schrödinger equation signal solenoid solution spectroscopy spin spinor structure superposition symmetry transformation transition two-level atom vector potential wave function