Time in Quantum MechanicsGonzalo Muga, R. Sala Mayato, Inigo Egusquiza Springer Science & Business Media, 7 dic 2007 - 455 páginas The treatment of time in quantum mechanics is still an important and challenging open question in the foundation of the quantum theory. This multi-authored book, written as an introductory guide for newcomers to the subject, as well as a useful source of information for the expert, covers many of the open questions. The book describes the problems, and the attempts and achievements in defining, formalizing and measuring different time quantities in quantum theory. |
Índice
1 Introduction | 1 |
2 Characteristic Times in OneDimensional Scattering | 31 |
3 The TimeEnergy Uncertainty Relation | 73 |
The Duration of a Quantum Transition | 107 |
5 Bohm Trajectory Approach to Timing Electrons | 129 |
6 Decoherent Histories for SpaceTime Domains | 163 |
7 Quantum Traversal Time Path Integrals and Superluminal Tunnelling | 194 |
8 Quantum Clocks and Stopwatches | 235 |
9 The Local Larmor Clock Partial Densities of States and Mesoscopic Physics | 279 |
10 Standard QuantumMechanical Approach to Times of Arrival | 304 |
11 Experimental Issues in QuantumMechanical Time Measurement | 333 |
12 Microwave Experiments on Tunneling Time | 355 |
An Updated Review | 398 |
449 | |
Otras ediciones - Ver todo
Time in Quantum Mechanics J. G. Muga,R. Sala Mayato,I. L. Egusquiza No hay ninguna vista previa disponible - 2014 |
Time in Quantum Mechanics Gonzalo Muga,R. Sala Mayato,Inigo Egusquiza No hay ninguna vista previa disponible - 2010 |
Términos y frases comunes
amplitude approach arrival associated assume atom barrier classical clock complete components condition consider continuous contribution corresponding coupling crossing decay defined delay density dependence derivative described detector determined different discussed distribution effect electron energy equal equation event evolution example expectation experiment experimental expression fact field first follows formalism frequency given Hamiltonian histories incident initial integral interaction interest interpretation interval J.G. Muga Lett limit matrix means measurement momentum motion negative observable obtained operator particle particular path performed phase Phys physical position possible potential POVM probability problem propagation provides pulse quantity quantum mechanics quantum theory question reference reflection region relation scattering Sect shift single space standard takes theory trajectory transition transmission traversal tunneling uncertainty variable vector wave function wave packet weak width zero
Referencias a este libro
Einstein, Bohr and the Quantum Dilemma: From Quantum Theory to Quantum ... Andrew Whitaker Vista previa restringida - 2006 |