D. M. Cardamone, C. A. Stafford, B. R. Barrett
Published 2002-06-16Version 1
Coupled quantum dots are an example of the ubiquitous quantum double potential well. In a typical transport experiment, each quantum dot is also coupled to a continuum of states. Our approach takes this into account by using a Green's function formalism to solve the full system. The time-dependent solution is then explored in different limiting cases. In general, a combination of coherent and incoherent behavior is observed. In the case that the coupling of each dot to the macroscopic world is equal, however, the time evolution is purely coherent.
Comments: 5 pages, 2 figures, presented at Pan-American Advanced Studies Institute (PASI) 2001: Physics and Technology at the Nanometer Scale
Journal: phys. stat. sol. (b) 230, 419 (2002)
Counting statistics and decoherence in coupled quantum dots
Non-stationary effects in the coupled quantum dots influenced by the electron-phonon interaction
Electron Bunching in Stacks of Coupled Quantum Dots
