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Coulomb crystallization of xenon highly charged ions in a laser-cooled Ca+ matrix

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arxiv 2512.12266 v2 pith:JWC4RYSF submitted 2025-12-13 physics.atom-ph cond-mat.quant-gasquant-ph

Coulomb crystallization of xenon highly charged ions in a laser-cooled Ca+ matrix

classification physics.atom-ph cond-mat.quant-gasquant-ph
keywords ionschargedcoulombhcishighlychargecontrolcrystallization
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report on the sympathetic cooling and Coulomb crystallization of xenon highly charged ions (HCIs) with laser-cooled Ca$^+$ ions. The HCIs are produced in a compact electron beam ion trap, then charge selected, decelerated, and finally injected into a cryogenic linear Paul trap. There, they are captured into $^{40}$Ca$^+$ Coulomb crystals, and co-crystallized within them, causing dark voids in their fluorescence images. Fine control over the number of trapped ions and HCIs allows us to realize mixed-species crystals with arbitrary ordering patterns. By investigating Xe$^{q+}$--Ca$^+$ strings, we confirm the HCI charge states, measure their lifetime and characterize the mixed-species motional modes. Our system effectively combines the established quantum control toolbox for Ca$^+$ with the rich set of atomic properties of Xe highly charged ions, providing a resourceful platform for optical frequency metrology, searches for signatures of new physics, and quantum information science.

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