Two-photon dipole-dipole blockade

TL;DR

This paper presents a mechanism for generating entangled Bell states between two atoms using dipole-dipole interactions, analyzing the conditions under which entanglement is maximized and sustained, including effects of relaxation and interaction strength.

Contribution

It introduces a controlled method for Bell state generation via dipole-dipole interactions and provides analytical insights into entanglement dynamics and thresholds.

Findings

Concurrence depends on dipole-dipole interaction strength.

Entanglement can be sustained over time with strong interactions.

Analytical expression for steady-state concurrence derived.

Abstract

We describe a mechanism for a controlled generation of a pure Bell state with correlated atoms that involve two or zero excitations. The mechanism inhibits transitions into singly excited collective states of a two-atom system by shifting them from their unperturbed energies. The shift is accomplished by the dipole-dipole interaction between the atoms. The creation of the Bell state is found to be dependent on the relaxation of the atomic excitation. When the relaxation is not present or can be ignored, the state of the system evolves harmonically between a separable to the maximally entangled state. We follow the temporal evolution of the state and find that the concurrence can be different from zero only in the presence of the dipole-dipole interaction. Furthermore, in the limit of a large dipole-dipole interaction, the concurrence reduces to that predicted for an X-state of the system. A general inequality is found which shows that the concurrence of an X-state system is a lower bound for the concurrence of the two-atom system. With the relaxation present, the general state of the system is a mixed state that under a strong dipole-dipole interaction reduces the system to an X-state form. We find that mixed states admit of lower level of entanglement, and the entanglement may occur over a finite range of time. A simple analytical expression is obtained for the steady-state concurrence which shows that there is a threshold value for the dipole-dipole interaction relative to the Rabi frequency of the driving field above which the atoms can be entangled over the entire time of the evolution.