High-efficiency single-photon Fock state production by transitionless quantum driving

TL;DR

This paper introduces a transitionless quantum driving method to produce single-photon Fock states efficiently in atom-cavity systems, overcoming limitations of adiabatic schemes and maintaining high efficiency despite dissipations.

Contribution

It presents a novel approach using transitionless quantum driving for on-demand single-photon generation, improving efficiency over traditional adiabatic methods.

Findings

Significantly suppresses nonadiabatic transitions

Achieves high Fock state production efficiency

Robust against atomic and cavity dissipations

Abstract

Single photon source is one of the key devices for optical quantum information processing. Differing from the usual stimulated Raman adiabatic passage to obtain single-photon radiation, here we propose an approach to produce optical Fock state on demand in the usual atom-cavity system by utilizing the technique of transitionless quantum driving. The present proposal effectively suppresses the unwanted but practically unavoidable nonadiabatic transitions in the previous adiabatic schemes. Therefore, the efficiency of Fock state production by the present technique could be significantly high, even in the presence of various atomic and cavity dissipations.