Selected Student Papers
Spin-exchange collisions in hot vapors creating and sustaining bipartite entanglement
In this article, Kostas Mouloudakis, a PhD student of our Department and Iannis Kominis, Associate Professor at our Department, use techniques of quantum information science to quantify the atom-atom correlations produced by spin-exchange collisions in hot alkali vapors. Such vapors form the physical realization of several quantum technologies relevant to quantum sensing, most notably ultrasensitive atomic magnetometers.
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Figure: Binary total atomic spin correlations for (a) fx and fy, and (b) fz, as a function of the spin-exchange phase φ and the entanglement quantification (negativity) of the post-collision two-atom state. As seen in the figure, large entanglement is connected to large spin correlations which determine measurable spin noise variances. |
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