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Emission of Spin-Correlated Matter-Wave Jets from Spinor Bose-Einstein Condensates

Kyungtae Kim, Junhyeok Hur, SeungJung Huh, Soonwon Choi, Jae-yoon Choi

2021Physical Review Letters29 citationsDOIOpen Access PDF

Abstract

We report the observation of matter-wave jet emission in a strongly ferromagnetic spinor Bose-Einstein condensate of ^{7}Li atoms. Directional atomic beams with |F=1,m_{F}=1⟩ and |F=1,m_{F}=-1⟩ spin states are generated from |F=1,m_{F}=0⟩ state condensates or vice versa. This results from collective spin-mixing scattering events, where spontaneously produced pairs of atoms with opposite momentum facilitates additional spin-mixing collisions as they pass through the condensates. The matter-wave jets of different spin states (|F=1,m_{F}=±1⟩) can be a macroscopic Einstein-Podolsky-Rosen state with spacelike separation. Its spin-momentum correlations are studied by using the angular correlation function for each spin state. Rotating the spin axis, the inter- and intraspin-momentum correlation peaks display a high-contrast oscillation, indicating collective coherence of the atomic ensembles. We provide numerical calculations that describe the experimental results at a quantitative level. Our Letter paves the way to generating macroscopic quantum entanglement with the spin and motional degree of freedom with massive particles. It has a wide range of applications from quantum information science to the fundamental studies of quantum entanglement.

Topics & Concepts

PhysicsBose–Einstein condensateSpinorSpin (aerodynamics)Matter waveAtomic physicsCoherence (philosophical gambling strategy)Angular momentumCondensed matter physicsScatteringSpin statesWave functionSpin waveQuantum mechanicsFerromagnetismQuantumThermodynamicsCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics ResearchQuantum, superfluid, helium dynamics