Single-Photon Absorption in Coupled Atom-Cavity Systems

TL;DR

This paper demonstrates how to perfectly absorb a single photon with arbitrary shape using a coupled atom-cavity system by designing a specific control pulse, advancing quantum memory techniques.

Contribution

It provides an analytic method to determine the control pulse shape needed for complete photon-to-atom state transfer in atom-cavity systems.

Findings

Analytic expression for control pulse shape for photon absorption

Conditions for impedance matching in atom-cavity systems

Implications for quantum memory development

Abstract

We show how to capture a single photon of arbitrary temporal shape with one atom coupled to an optical cavity. Our model applies to Raman transitions in three-level atoms with one branch of the transition controlled by a (classical) laser pulse, and the other coupled to the cavity. Photons impinging on the cavity normally exhibit partial reflection, transmission, and/or absorption by the atom. Only a control pulse of suitable temporal shape ensures impedance matching throughout the pulse, which is necessary for complete state mapping from photon to atom. For most possible photon shapes, we derive an unambiguous analytic expression for the shape of this control pulse, and we discuss how this relates to a quantum memory.