Dynamics of the reading process of a quantum memory

TL;DR

This paper develops a theoretical model for the extraction process of information from a quantum memory containing a single atomic excitation, analyzing the photon wavepacket and comparing it with experimental data.

Contribution

It provides an analytical expression for the photon wavepacket during readout, linking key parameters and clarifying the role of superradiance in quantum memory retrieval.

Findings

The theory matches experimental results quantitatively.

It explains the influence of detuning and read field intensity.

Clarifies the role of superradiance in the reading process.

Abstract

The mechanism of extraction of information stored in a quantum memory is studied here in detail. We consider memories containing a single excitation of a collective atomic state, which is mapped into a single photon during the reading process. A theory is developed for the wavepacket of the extracted photon, leading to a simple analytical expression depending on the key parameters of the problem, like detuning and intensity of the read field and the number of atoms in the atomic ensemble. This theory is then compared to a large set of experimental situations and a satisfactory quantitative agreement is obtained. In this way, we are able to systematically study the saturation and spectrum of the reading process, as well as clarify the role of superradiance in the system.