28 January 2008 Quantum optics of a quantum dot embedded in a photonic crystal cavity
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In this paper we analyze a disk-like quantum dot embedded in an engineered two-dimensional (2D) photonic crystal cavity as an artificial atom. In this quantum dot electron and hole form an exciton where photon and electron-hole bound state can interact. Within the engineered electromagnetic vacuum of the PBG material, the exciton can emit and reabsorb a virtual poton. If the exciton energy lies near in the photonic band gap edge the exciton level splits into two levels. The dressed state exciton exhibits a lower energy than that of bare exciton. Here energy associated with dressed exction is evaluated.
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Majid Sodagar, Majid Sodagar, Sina Khorasani, Sina Khorasani, Amir Hossein Atabaki, Amir Hossein Atabaki, Ali Adibi, Ali Adibi, } "Quantum optics of a quantum dot embedded in a photonic crystal cavity", Proc. SPIE 6901, Photonic Crystal Materials and Devices VII, 69010E (28 January 2008); doi: 10.1117/12.766294; https://doi.org/10.1117/12.766294

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