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Absorption of a weak probe in singly charged n-doped quantum dots in the Voigt geometry

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Carreño Sánchez, Fernando and Antón Revilla, Miguel Ángel (2019) Absorption of a weak probe in singly charged n-doped quantum dots in the Voigt geometry. Laser Physics, 29 (2). 9 p.. ISSN 1054-660X

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Official URL: https://doi.org/10.1088/1555-6611/aaf639




Abstract

We analyze the absorption of a weak probe field in singly charged n-doped quantum dots in the presence of an external magnetic field in the Voigt geometry. The dots are modeled as double lambda systems. A laser field pumps two of the four active transitions while a probe field is applied along the two undriven transitions. It is shown that for both on resonance and out of resonance driving gain (without inversion) is obtained at two sidebands of the dressed QDs. We found that the peak value of gain can be maximized by a proper selection of both the external magnetic field and the Rabi frequency of the pump field for out of resonance driving. We also show that the coherent driving in combination with above-band excitation allows one to turn the absorption peaks into gain (with inversion) in the whole spectral range.


Item Type:Article
Additional Information:

Received 4 December 2017
Accepted 1 December 2018
Published 4 January 2019

Uncontrolled Keywords:Atomic coherence effects; Coherent population trapping; Gain without inversion
Subjects:Sciences > Physics > Electromagnetism
Sciences > Physics > Optics
Medical sciences > Optics > Geometrical and instumental optics
ID Code:55000
Deposited On:12 Apr 2019 10:45
Last Modified:13 May 2019 11:50

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