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Radiation emission from an asymmetric quantum dot coupled to a plasmonic nanostructure

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Antón Revilla, Miguel Ángel and Carreño Sánchez, Fernando and Gómez Calderón, Óscar and Melle Hernández, Sonia and Cabrera Granado, Eduardo (2016) Radiation emission from an asymmetric quantum dot coupled to a plasmonic nanostructure. Journal of Optics, 18 (2). 15 p.. ISSN 2040-8978

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Official URL: http://dx.doi.org/10.1088/2040-8978/18/2/025001



Abstract

We propose a scheme for controlling the absorption and RFS of a quantum dot (QD) with broken inversion symmetry interacting with a plasmonic nanostructure. The QD is described as a two-level atom-like system with a permanent dipole moment in the excited state. A linearly polarized laser field drives the optical transition of the QD and produces localized surface plasmons in the MNP. The influence of plasmonic effects between the nanoparticle and the dot is analyzed using the Green tensor method. We found terahertz (THz) emission in the resonance fluorescence spectrum when the laser frequency lies above the transition frequency. The position and strength of the THz peaks is controlled by means of the dot-nanoparticle separation. The quantum nature of the emitted THz photons is analyzed by evaluating the second-order fluorescence intensity correlation function. We found a periodic alternation of photon bunching and anti-bunching with a period that depends on the polarization of the driving field.


Item Type:Article
Additional Information:

Received 2 November 2015; Accepted 27 November 2015; Published 6 January 2016.

Uncontrolled Keywords:Quantum dot; Plasmonic; Terahertz radiation; Permanent dipole moment; Field
Subjects:Sciences > Physics > Quantum theory
ID Code:42666
Deposited On:11 May 2017 12:27
Last Modified:11 May 2017 12:27

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