Abstract

We measure the dynamics of a nonclassical optical field using two-time second-order correlations in conjunction with pulsed excitation. The technique quantifies single-photon purity and coherence during the excitation-decay cycle of an emitter, illustrated here using a quantum dot. We observe that for certain pump wavelengths, photons detected early in the cycle have reduced single-photon purity and coherence compared to those detected later. A model indicates that the single-photon purity dynamics are due to exciton recapture after initial emission and within the same pulse cycle.

Publication Details
Publication Type
Journal Article
Year of Publication
2012
Volume
109
DOI
10.1103/PhysRevLett.109.163601
Journal
Physical Review Letters
Contributors
Groups