Entropy and Variance Squeezing of V-type Atom in Dissipative Cavity

TL;DR

This paper studies how various parameters affect entropy and variance squeezing in a V-type atom within a dissipative cavity, highlighting the conditions for atomic squeezing and its implications for quantum information processing.

Contribution

It provides a detailed analysis of entropy and variance squeezing influenced by system parameters, emphasizing the role of entropy squeezing in quantum fluctuations.

Findings

No squeezing of S_y under any conditions.

Variance squeezing of S_x occurs only when Δ > 0.

Atomic squeezing depends on θ, γ₀/κ, Δ, and initial state.

Abstract

Based on Ref.\cite{Riccardi A}, we investigate the entropy and variance squeezing of a V-type atom in a dissipative cavity, and discuss the influences of parameters including the spontaneously generated interference (SGI) ($\theta$), the cavity-environment coupling ($\gamma_0/\kappa$) and the atom-cavity detuning ($\Delta$) on the atomic squeezing by using different initial states. The results show that no squeezing of $S_y$ occurs under any condition and that variance squeezing of $S_x$ appears only when $\Delta>0$. Entropy squeezing quantifies quantum fluctuations more precisely than variance squeezing. Moreover, the atomic squeezing of $S_x$ clearly depends on $\theta$, $\gamma_0/\kappa$, $\Delta$ and the initial state. These findings are meaningful for quantum information processing as an ultra-low-noise resource.