This book provides an introduction to phenomena and models in nanoelectronics. It starts from the basics, but also introduces topics of recent interest, such as superconducting qubits, graphene, and quantum nanoelectromechanics.
This book provides an introduction to phenomena and models in nanoelectronics. It starts from the basics, but also introduces topics of recent interest, such as superconducting qubits, graphene, and quantum nanoelectromechanics.
Tero Heikkilä is a grantee of the European Research Council
Inhaltsangabe
1: Introduction 2: Semiclassical theory 3: Scattering approach 4: Quantum interference effects 5: Introduction to superconductivity 6: Fluctuations and correlations 7: Single electron effects 8: Quantum dots 9: Tunnel junctions with superconductors 10: Graphene 11: Nanoelectromechanical systems Appendix A: Important technical tools Appendix B: Current operator for the scattering theory Appendix C: Fluctuation-dissipation theorem Appendix D: Derivation of the Boltzmann-Langevin noise formula Appendix E: Reflection coefficient in electronic circuits
1: Introduction 2: Semiclassical theory 3: Scattering approach 4: Quantum interference effects 5: Introduction to superconductivity 6: Fluctuations and correlations 7: Single electron effects 8: Quantum dots 9: Tunnel junctions with superconductors 10: Graphene 11: Nanoelectromechanical systems Appendix A: Important technical tools Appendix B: Current operator for the scattering theory Appendix C: Fluctuation-dissipation theorem Appendix D: Derivation of the Boltzmann-Langevin noise formula Appendix E: Reflection coefficient in electronic circuits
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