Adiabatic Creation of Atomic Squeezing in Dark States vs. Decoherences

TL;DR

This paper investigates how adiabatic manipulation of classical light fields can generate and optimize atomic squeezing and entanglement in dark states within atomic ensembles, considering decoherence effects.

Contribution

It introduces a method for creating atomic squeezing via adiabatic control in EIT-based photon storage and analyzes decoherence impacts on quantum correlations.

Findings

Optimal timing for maximum atomic squeezing identified.

Decoherence channels cause sudden death of quantum correlations.

Adiabatic manipulation enhances quantum correlation creation.

Abstract

We study the multipartite correlations of the multi-atom dark states, which are characterized by the atomic squeezing beyond the pairwise entanglement. It is shown that, in the photon storage process with atomic ensemble via electromagnetically induced transparency (EIT) mechanism, the atomic squeezing and the pairwise entanglement can be created by adiabatically manipulating the Rabi frequency of the classical light field on the atomic ensemble. We also consider the sudden death for the atomic squeezing and the pairwise entanglement under various decoherence channels. An optimal time for generating the greatest atomic squeezing and pairwise entanglement is obtained by studying in details the competition between the adiabatic creation of quantum correlation in the atomic ensemble and the decoherence that we describe with three typical decoherence channels.