Book contents
- Frontmatter
- Contents
- Preface
- 1 A primer on electron transport
- 2 Drude model, Kubo formalism and Boltzmann equation
- 3 Landauer approach
- 4 Non-equilibrium Green's function formalism
- 5 Noise
- 6 Electron-ion interaction
- 7 The micro-canonical picture of transport
- 8 Hydrodynamics of the electron liquid
- Appendices
- References
- Index
Preface
Published online by Cambridge University Press: 06 July 2010
- Frontmatter
- Contents
- Preface
- 1 A primer on electron transport
- 2 Drude model, Kubo formalism and Boltzmann equation
- 3 Landauer approach
- 4 Non-equilibrium Green's function formalism
- 5 Noise
- 6 Electron-ion interaction
- 7 The micro-canonical picture of transport
- 8 Hydrodynamics of the electron liquid
- Appendices
- References
- Index
Summary
“The important thing is not to stop questioning.
Curiosity has its own reason for existing.”
Albert EinsteinAbout ten years ago I was resting between session breaks of a busy American Physical Society March meeting. A colleague, whom I had not seen in years, was with me and inquired about my work. I told him I was working on understanding transport in nanoscale systems. He replied, “Aren't the most important facts already understood?”
As unsettling as that question was, I realized he was simply echoing a sentiment in the community: the field of mesoscopic systems – larger “cousins” of nanoscale systems – had provided us with a wealth of experimental results, and a theoretical construct – known as the single-particle scattering approach to conduction – that had almost assumed the characteristics of a “dogma”. Many transport properties of mesoscopic systems could be understood in terms of this approach. Books on the subject had appeared which enumerated the successes of this theory. Nanoscale systems were nothing else than smaller versions of mesoscopic systems. All we needed to do was transfer the established experimental knowledge – and proven theoretical and computational techniques – to this new length scale. Or so it seemed.
The past decade has shown that the field of transport in nanoscale systems is not a simple extension of mesoscopic physics. Thanks to improved experimental capabilities and new theoretical approaches and viewpoints, it has become clear that novel transport properties emerge at the nanometer scale. In addition, many physical assumptions and approximations we reasonably make to describe mesoscopic systems may not hold for nanoscale structures.
- Type
- Chapter
- Information
- Electrical Transport in Nanoscale Systems , pp. xiii - xviPublisher: Cambridge University PressPrint publication year: 2008