Litcius/Paper detail

Experimental realization of efficient nondegenerate four-wave mixing in cesium atoms

Jinze Wu, Miaojun Guo, Haitao Zhou, Jinhong Liu, Jinhong Li, Junxiang Zhang

2022Optics Express17 citationsDOIOpen Access PDF

Abstract

Nondegenerate four-wave mixing (FWM) in diamond-type atomic systems has important applications in a wide range of fields, including quantum entanglement generation, frequency conversion, and optical information processing. Although the efficient self-seeded nondegenerate FWM with amplified spontaneous emission (ASE) has been realized extensively, the seeded nondegenerate FWM without ASE is inefficient in reported experiments so far. Here we present the experimental realization of the seeded nondegenerate FWM in cesium atoms with a significantly improved efficiency. Specifically, with two pump lasers at 852 and 921 nm and a seed laser at 895 nm, a continuous-wave laser at 876 nm is efficiently generated via FWM in a cesium vapor cell with a power up to 1.2 mW, three orders of magnitude larger than what has been achieved in previous experiments. The improvement of the efficiency benefits from the exact satisfaction of the phase-matching condition realized by an elaborately designed setup. Our results may find applications in the generation of squeezing and entanglement of light via nondegenerate FWM.

Topics & Concepts

Four-wave mixingRealization (probability)CaesiumQuantum entanglementMixing (physics)LaserPhysicsOpticsAtomic physicsMaterials scienceAmplified spontaneous emissionQuantumOptical pumpingQuantum opticsNonlinear opticsOptoelectronicsRange (aeronautics)Spontaneous emissionQuantum information processingStark effectQuantum informationLaser power scalingPhase conjugationFrequency mixingPower (physics)Optical amplifierSiliconMolecular physicsPhotonicsQuantum channelSpectroscopyQuantum optics and atomic interactionsAtomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein Condensates