Emission properties of a quantum-doc cavity system using a deformed Morse algebra
POSTER
Abstract
In this work, we conduct a theoretical-computational study of a two-level system coupled to
an optical cavity, and where it is considered a parity deformation in the algebraic structure
associated with the Hilbert space of the cavity. In order to describe the open quantum dy-
namics of the coupled system a master equation is obtained within the Lindblad approach.
We calculate the relevant quantities such as the dispersion relationships, second-order corre-
lation function and the emission spectrum of the quantum system. We found that the parity
deformation gives rise to new spectral triplets that can be observed in the emission spectrum
as a consequence of a collective phenomenon in the system.
an optical cavity, and where it is considered a parity deformation in the algebraic structure
associated with the Hilbert space of the cavity. In order to describe the open quantum dy-
namics of the coupled system a master equation is obtained within the Lindblad approach.
We calculate the relevant quantities such as the dispersion relationships, second-order corre-
lation function and the emission spectrum of the quantum system. We found that the parity
deformation gives rise to new spectral triplets that can be observed in the emission spectrum
as a consequence of a collective phenomenon in the system.
*Financial support from the seed grant "Computational modeling of biomaterials and applications to bioengineering and classical and quantum machine learning for predicting social engineering (2022–2026, code: INV-0012-042)", Universidad Technologica Indoamérica, Ecuador, awarded to S.P.T.
Presenters
-
Saravana Prakash Thirumuruganandham
- Centro de Investigación de Ciencias Humanas y de la Educació
- FITIC, Faculty of Industrial engineering