Momentum-exchange interactions in a Bragg atom interferometer suppress Doppler dephasing | JILA

Author	Chengyi Luo Haoqing Zhang Vanessa Koh John Wilson Anjun Chu Murray Holland Ana Maria Rey James Thompson
Abstract	Large ensembles of laser-cooled atoms interacting through infinite-range photon-mediated interactions are powerful platforms for quantum simulation and sensing. Here we realize momentum-exchange interactions in which pairs of atoms exchange their momentum states by collective emission and absorption of photons from a common cavity mode, a process equivalent to a spin-exchange or XX collective Heisenberg interaction. The momentum-exchange interaction leads to an observed all-to-all Ising-like interaction in a matter-wave interferometer.
Year of Publication	2024
Date Published	2024-05
Journal Title	Science
Volume	384
Issue	6695
Start Page or Article ID	551-556
ISSN Number	0036-8075, 1095-9203
DOI	10.1126/science.adi1393
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JILA PI	Ana Maria Rey James Thompson Murray Holland
Related JILA Highlights	Twisting and Binding Matter Waves with Photons in a Cavity
Associated Institutes	JILA-PFC
	Journal Article
JILA Topics	Atomic & Molecular Physics
Publication Status	Published
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