Quantum dot induced phase shift in a pillar microcavity
作者: A. B. Young , R. Oulton , C. Y. Hu , A. C. T. Thijssen , C. Schneider
DOI: 10.1103/PHYSREVA.84.011803
关键词: Cavity quantum electrodynamics 、 Optoelectronics 、 Measure (physics) 、 Quantum dot 、 Physics 、 Photon 、 Quantum information 、 Optical microcavity 、 Spin-½ 、 Quantum dot laser
摘要: We perform high-resolution reflection spectroscopy of a quantum dot resonantly coupled to pillar microcavity. show the change in reflectivity as is tuned through cavity resonance and measure quantum-dot-induced phase shift using an ultrastable interferometer. The macroscopic we could be extended study charged microcavity systems, where it exploited realize high-efficiency spin photon interface for hybrid information schemes.
harvard.edu
arxiv.org
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128.84.21.199
bristol.ac.uk参考文章(29)
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