Demonstration of an atomic frequency comb quantum memory using velocity-selective pumping in warm alkali vapour
Conference on Lasers and Electro-Optics, OSA Technical Digest (Optical Society of America, 2020) OSA Publishing (2021)
Abstract:
We present the first demonstration of velocity-selective pumping in an atomic vapour to preserve light-matter coherence. Control is illustrated by a subsequent demonstration of an atomic frequency comb quantum memory realised in the vapour.Further compactifying linear optical unitaries
APL Photonics AIP Publishing 6:7 (2021) 070804
Gigahertz-bandwidth optical memory in Pr3+:Y2SiO5.
Optics Letters Optica Publishing Group 46:12 (2021) 2948-2951
Room temperature atomic frequency comb storage for light
Optics Letters Optical Society of America 46:12 (2021) 2960-2960
Abstract:
We demonstrate coherent storage and retrieval of pulsed light using the atomic frequency comb protocol in a room temperature alkali vapor. We utilize velocity-selective optical pumping to prepare multiple velocity classes in the 𝐹=4 hyperfine ground state of cesium. The frequency spacing of the classes is chosen to coincide with the 𝐹′=4−𝐹′=5 hyperfine splitting of the 62P3/2 excited state, resulting in a broadband periodic absorbing structure consisting of two usually Doppler-broadened optical transitions. Weak coherent states of duration 2ns are mapped into this atomic frequency comb with pre-programmed recall times of 8ns and 12ns, with multi-temporal mode storage and recall demonstrated. Utilizing two transitions in the comb leads to an additional interference effect upon rephasing that enhances the recall efficiency.Single-shot discrimination of coherent states beyond the standard quantum limit.
Optics Letters Optica Publishing Group 46:11 (2021) 2565-2568