Mesoscopic Route to Time Travel
portes grátis
Mesoscopic Route to Time Travel
Singha Deo, Prosenjit
Springer Verlag, Singapore
09/2022
116
Mole
Inglês
9789811644672
15 a 20 dias
215
Descrição não disponível.
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
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
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Mesoscopic Physics;Landauer-Buttiker Formalism;Thermodynamics and Transport;Negative Times;Scattering Phase Shift in Low Dimensions
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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.