Two-photon interference using background-free quantum frequency conversion of single photons from a semiconductor quantum dot

Serkan Ates, Imad Agha, Angelo Gulinatti, Ivan Rech, Matthew T. Rakher, Antonio Badolato, Kartik Srinivasan

Published 2012-07-17Version 1

We show that quantum frequency conversion (QFC) can overcome the spectral distinguishability common to inhomogeneously broadened solid-state quantum emitters. QFC is implemented by combining single photons from an InAs quantum dot (QD) at 980 nm with a 1550 nm pump laser in a periodically-poled lithium niobate (PPLN) waveguide to generate photons at 600 nm with a signal-to-background ratio exceeding 100:1. Photon correlation and two-photon interference measurements confirm that both the single photon character and wavepacket interference of individual QD states are preserved during frequency conversion. Finally, we convert two spectrally separate QD transitions to the same wavelength in a single PPLN waveguide and show that the resulting field exhibits non-classical two-photon interference.