Laser-like Instabilities in Quantum Nano-electromechanical Systems
arXiv:cond-mat/0609329 · doi:10.1103/PhysRevB.74.201301
Abstract
We discuss negative damping regimes in quantum nano-electromechanical systems formed by coupling a mechanical oscillator to a single-electron transistor (normal or superconducting). Using an analogy to a laser with a tunable atom-field coupling, we demonstrate how these effects scale with system parameters. We also discuss the fluctuation physics of both the oscillator and the single-electron transistor in this regime, and the degree to which the oscillator motion is coherent.
4+ pages, 1 figure; reference to the work of Dykman and Krivoglaz added