The Quantum Theory of Motion: An Account of the de Broglie-Bohm Causal Interpretation of Quantum MechanicsThis book presents the first comprehensive exposition of the interpretation of quantum mechanics pioneered by Louis de Broglie and David Bohm. The purpose is to explain how quantum processes may be visualized without ambiguity or confusion in terms of a simple physical model. Dr. Holland develops the idea that a material system such as an electron is a particle guided by a surrounding quantum wave. He examines the classic phenomena of quantum theory in order to show how the spacetime orbits of an ensemble of particles can reproduce the statistical quantum predictions. The book will therefore appeal to all physicists with an interest in the foundations of their discipline. |
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HamiltonJacobi theory | 27 |
Elements of the quantum theory of motion | 66 |
Appendix A | 134 |
Interference and tunnelling | 173 |
The classical limit | 218 |
Manybody systems | 277 |
Appendix The connection between Q and stationary perturbation | 321 |
the Pauli theory | 379 |
Spin j the rigid rotator | 424 |
The EinsteinPodolskyRosen experiment and nonlocality | 458 |
Appendix | 495 |
| 572 | |
| 585 | |
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according actual amplitude angular apply approach arbitrary associated assumed atom beam becomes body causal interpretation Chap classical complete component concept connected conservation consider constant continuous coordinates correlated corresponding course defined definition density depends derived described determined direction discussed distribution effect electron energy ensemble equation example expectation experiment expression external fact field force formalism function give given Hamilton-Jacobi hence implies independent individual initial interaction interference latter limit mass mean measurement momentum motion moving nature Note object observed obtain operator orbit packet particle particular pass path phase physical plane position possible predictions probability problem properties provides quantities quantum mechanics quantum potential quantum theory reflected region relation relative require respect result rotation satisfies Schrodinger equation slit solution space spin vector statistical superposition suppose trajectory transformation usual variables wave wavefunction
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The Quantum Theory of Measurement Paul Busch,Pekka J. Lahti,Peter Mittelstaedt ªÁºÒ§Êèǹ¢Í§Ë¹Ñ§Ê×Í - 1996 |
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| ª×èÍ˹ѧÊ×Í | The Quantum Theory of Motion: An Account of the de Broglie-Bohm Causal Interpretation of Quantum Mechanics |
| ¼Ùéáµè§ | Peter R. Holland |
| ©ºÑº | ©ºÑº·ÕèÁÕÀÒ¾»ÃСͺ, ©ºÑº¾ÔÁ¾ì«éÓ, ©ºÑºá¡éä¢ |
| ¼Ùé¨Ñ´¾ÔÁ¾ì | Cambridge University Press, 1995 |
| ISBN | 0521485436, 9780521485432 |
| ¤ÇÒÁÂÒÇ | 598 ˹éÒ |
| Êè§ÍÍ¡¡ÒÃÍéÒ§ÍÔ§ | BiBTeX EndNote RefMan |