Study of the Coherence Functions of Light in a Jaynes-Cummings non-linear System

Study of the Coherence Functions of Light in a Jaynes-Cummings non-linear System

In this work, a two-level quantum dot inside of a cavity with a non-linear Kerr-type medium and a single mode of the electromagnetic field quantized was considered. The master equation was constructed taking into account dissipative processes, with the non-linear Kerr term, and it...

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Dades bibliogràfiques
Autors principals: Ruiz-Rocha, Yurimar, Gonzaléz, Julio, Villamil, Pablo
Format: Online
Idioma:spa
Publicat: Universidad Pedagógica y Tecnológica de Colombia 2018
Matèries:
óptica no lineal, punto cuántico (QD), microcavidad, fotoluminiscencia (PL), ecuación maestra, funciones de correlación, Medio Kerr, estados cuánticos de luz
Nonlinear optics, quantum dot (QD), microcavity, photoluminescence (PL), master equation, Kerr medium, Quantum states of light.
Accés en línia:https://revistas.uptc.edu.co/index.php/ciencia_en_desarrollo/article/view/8098
Descripció
Sumari:In this work, a two-level quantum dot inside of a cavity with a non-linear Kerr-type medium and a single mode of the electromagnetic field quantized was considered. The master equation was constructed taking into account dissipative processes, with the non-linear Kerr term, and it was numerically solved for the stationary state, taking into account the temperature. On the basis of these results, observable aspects of the state of the light were calculated, such as the average number of photons and the spectrum of photoluminescence, and the quantum-classical characteristics of the state of the light were determined by means of the calculation of the coherence functions of the second-order photons.