Beschreibung:
This book gives a general introduction to theoretically understand thermodynamic properties and response to applied fields of mesoscopic systems that closely relate to experiments. The book clarifies many conceptual and practical problems associated with the Larmor clock and thus makes it a viable approach to study these properties. The book is written pedagogically so that a graduate or undergraduate student can follow it. This book also opens up new research areas related to the unification of classical and quantum theories and the meaning of time. It provides a scientific mechanism for time travel which is of immense fascination to science as well as society. It is known that developments in mesoscopic physics can lead to downscaling of device sizes. So, new or experienced researchers can have a quick introduction to various areas in which they might contribute in the future. This book is expected to be a valuable addition to the subject of mesoscopic physics.
This book gives a general introduction to theoretically understand thermodynamic properties and response to applied fields of mesoscopic systems that closely relate to experiments. The book clarifies many conceptual and practical problems associated with the Larmor clock and thus makes it a viable approach to study these properties. The book is written pedagogically so that a graduate or undergraduate student can follow it. This book also opens up new research areas related to the unification of classical and quantum theories and the meaning of time. It provides a scientific mechanism for time travel which is of immense fascination to science as well as society. It is known that developments in mesoscopic physics can lead to downscaling of device sizes. So, new or experienced researchers can have a quick introduction to various areas in which they might contribute in the future. This book is expected to be a valuable addition to the subject of mesoscopic physics.
Chapter I: Open systems.
Section 1.1 - Transport current
Section 1.2 - Aharonov-Bohm effect
Section 1.3 - Inclusion of magnetic field: Feynmann path approach
Chapter II: Closed systems
Section 2.1 - Parity effect in closed ring
Section 2.2 - Breakdown of parity effect
Chapter III: Larmor clock and Friedel sum rule
Section 3.1 - Larmor precision time
Chapter IV: Scattering in Q1D
Section 4.1 - A typical scattering problem in Q1D
Section 4.2 - Delta function potential in Q1D
Chapter V: Negative partial density of states
Section 5.1 - Burgers circuit: an introduction
Section 5.2 - Model potentials
Subsection 5.2.1 - Double delta function potential in one dimension
Subsection 5.2.2 - Stub potential
Subsection 5.2.3 - Delta function potential in Q1D
Subsection 5.2.4 - Three prong potential
Section 5.3 - Injectance and Friedel sum rule
Section 5.4 - Summary
Appendix A
Appendix B
Chapter VI: Time travel
Reflections