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Quantum Algorithms
Solid state based analog of optomechanics
arXiv
Authors: Nicolas L. Naumann, Leon Droenner, Alexander Carmele, Andreas Knorr, Weng W. Chow, Julia Kabuss
Year
2015
Paper ID
27091
Status
Preprint
Abstract Read
~2 min
Abstract Words
117
Citations
N/A
Abstract
We investigate a semiconductor quantum dot as a microscopic analog of a basic optomechanical setup. We show, that optomechanical features can be reproduced by the solid-state platform, arising from parallels of the underlying interaction processes, which in the optomechanical case is the radiation pressure coupling and in the semiconductor case the electron-phonon coupling. In optomechanics, phonons are typically induced via confined photons, acting on a movable mirror, while in the semiconductor system the phonons are emitted by the laser-driven electronic system. There are analogous effects present for both systems, featuring bistabilities, optically induced phonon lasing and enhanced phonon loss. Nonetheless, the different statistical nature of the optical cavity and the electronic system also leads to qualitative differences.
Why This Paper Matters
- It adds a 2015 reference point for readers tracking recent quantum research.
- We investigate a semiconductor quantum dot as a microscopic analog of a basic optomechanical setup.
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