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Paper detail

Collision-induced spin noise

Collision phenomena are ubiquitous and of importance in determining the microscopic structures and intermolecular interactions of atoms and molecules. The existing approaches are mostly based on atomic or molecular scatterings, which are hindered by the inconvenience of using ultra-high vacuum and low temperature systems. Here we demonstrate a new spin-noise spectroscopic approach by measuring optical polarization rotation noise of the probe light, which operates with simple apparatus and ambient conditions. Our approach features tens of gigahertz bandwidth and one part-per-million resolution, outperforming existing spin-noise techniques. Enabled by the new technique, we observe the collision-induced spin noise of alkali atoms, and precisely determine key collision parameters, such as collision diameter, well depth, and dominant interaction type. Our work provides a new tool to study a broad range of collision phenomena under ambient conditions.

preprint2021arXivOpen access
Shiming SongMin JiangYushu QinYu TongWenzhe ZhangXi QinRen-Bao LiuXinhua Peng
quant-ph
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Shiming SongMin JiangYushu QinYu TongWenzhe ZhangXi QinRen-Bao LiuXinhua Peng

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