Statistical Mixture of Kaleidoscope States Interacting with a Two-Level Atom: Entropy and Purification

Jorge A. Anaya-Contreras; Arturo Zúñiga-Segundo; Héctor M. Moya-Cessa

doi:10.3390/photonics10020150

Statistical Mixture of Kaleidoscope States Interacting with a Two-Level Atom: Entropy and Purification

Jorge A. Anaya-Contreras, Arturo Zúñiga-Segundo, Héctor M. Moya-Cessa

Escuela Superior de Física y Matemáticas (ESFM)

Research output: Contribution to journal › Article › peer-review

Abstract

We investigate some of the fundamental features of the interaction of a mixture of coherent states, namely, a Kaleidoscope states mixture, with two-level atoms in the Jaynes–Cummings model framework. We begin our analysis by calculating the von Neumann entropy of the field, which is determined with the help of the virtual atom method. The oscillations appearing in the entropy indicate a state of purity greater than the initial state, i.e., a purification of the initial state due to a transfer of coherence from the atom to the field. In this oscillatory region, we obtain a negative Wigner function that hints at a (noisy) multiple Schrödinger cat.

Translated title of the contribution	Mezcla estadística de estados de caleidoscopio que interactúan con un átomo de dos niveles: entropía y purificación
Original language	English
Article number	150
Journal	Photonics
Volume	10
Issue number	2
DOIs	https://doi.org/10.3390/photonics10020150
State	Published - Feb 2023

Keywords

Kaleidoscope-states
mixed-states
virtual-atom

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title = "Statistical Mixture of Kaleidoscope States Interacting with a Two-Level Atom: Entropy and Purification",

abstract = "We investigate some of the fundamental features of the interaction of a mixture of coherent states, namely, a Kaleidoscope states mixture, with two-level atoms in the Jaynes–Cummings model framework. We begin our analysis by calculating the von Neumann entropy of the field, which is determined with the help of the virtual atom method. The oscillations appearing in the entropy indicate a state of purity greater than the initial state, i.e., a purification of the initial state due to a transfer of coherence from the atom to the field. In this oscillatory region, we obtain a negative Wigner function that hints at a (noisy) multiple Schr{\"o}dinger cat.",

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T2 - Entropy and Purification

AU - Anaya-Contreras, Jorge A.

AU - Zúñiga-Segundo, Arturo

AU - Moya-Cessa, Héctor M.

PY - 2023/2

Y1 - 2023/2

N2 - We investigate some of the fundamental features of the interaction of a mixture of coherent states, namely, a Kaleidoscope states mixture, with two-level atoms in the Jaynes–Cummings model framework. We begin our analysis by calculating the von Neumann entropy of the field, which is determined with the help of the virtual atom method. The oscillations appearing in the entropy indicate a state of purity greater than the initial state, i.e., a purification of the initial state due to a transfer of coherence from the atom to the field. In this oscillatory region, we obtain a negative Wigner function that hints at a (noisy) multiple Schrödinger cat.

AB - We investigate some of the fundamental features of the interaction of a mixture of coherent states, namely, a Kaleidoscope states mixture, with two-level atoms in the Jaynes–Cummings model framework. We begin our analysis by calculating the von Neumann entropy of the field, which is determined with the help of the virtual atom method. The oscillations appearing in the entropy indicate a state of purity greater than the initial state, i.e., a purification of the initial state due to a transfer of coherence from the atom to the field. In this oscillatory region, we obtain a negative Wigner function that hints at a (noisy) multiple Schrödinger cat.

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JO - Photonics

JF - Photonics

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ER -

Statistical Mixture of Kaleidoscope States Interacting with a Two-Level Atom: Entropy and Purification

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