Mesoscopic Physics of Electrons and PhotonsCambridge University Press, 28 במאי 2007 Quantum mesoscopic physics covers a whole class in interference effects related to the propagation of waves in complex and random media. These effects are ubiquitous in physics, from the behaviour of electrons in metals and semiconductors to the propagation of electromagnetic waves in suspensions such as colloids, and quantum systems like cold atomic gases. A solid introduction to quantum mesoscopic physics, this book is a modern account of the problem of coherent wave propagation in random media. It provides a unified account of the basic theoretical tools and methods, highlighting the common aspects of the various optical and electronic phenomena involved and presenting a large number of experimental results. With over 200 figures, and exercises throughout, the book was originally published in 2007 and is ideal for graduate students in physics, electrical engineering, applied physics, acoustics and astrophysics. It will also be an interesting reference for researchers. |
מהדורות אחרות - הצג הכל
Mesoscopic Physics of Electrons and Photons <span dir=ltr>Eric Akkermans</span>,<span dir=ltr>Gilles Montambaux</span> אין תצוגה מקדימה זמינה - 2007 |
Mesoscopic Physics of Electrons and Photons <span dir=ltr>Eric Akkermans</span>,<span dir=ltr>Gilles Montambaux</span> אין תצוגה מקדימה זמינה - 2007 |
Mesoscopic Physics of Electrons and Photons <span dir=ltr>Eric Akkermans</span>,<span dir=ltr>Gilles Montambaux</span> אין תצוגה מקדימה זמינה - 2011 |
מונחים וביטויים נפוצים
albedo angular Appendix atomic behavior boundary conditions calculation Chapter characteristic coherent albedo coherent backscattering conductance fluctuations consider contribution Cooperon correlation function corresponds defined denoted density depends dephasing described diagrams diffusion approximation diffusion equation Diffuson dimensions disorder Dq² effect elastic mean free electrons energy exponential expression Fermi Fermi energy Figure finite Fourier transform frequency Gaussian geometry given Green function Helmholtz equation incident integral equation intensity interaction length limit magnetic field magnetic impurities mean free path multiple scattering trajectories obtain parameter persistent current phase coherence plane wave polarization channel potential probability of return propagation quantum quasiparticle Rayleigh scattering regime relation result ring scattering cross section Schrödinger equation sinh solution spin spin-orbit coupling structure factor temperature term Thouless energy transmission coefficient vanishes vertex wave vector weak localization correction wire zero αβ,γδ Απ Δσ