L. A. Rüffert, E. A. Dijck, L. Timm, J. R. Crespo López-Urrutia, T. E. Mehlstäubler
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Domain formation and structural stabilities in mixed-species Coulomb crystals induced by sympathetically cooled highly charged ions
There is a growing interest in high-precision spectroscopy and frequency
metrology for fundamental studies using sympathetically cooled highly charged
ions (HCIs) embedded in Coulomb crystals of laser-cooled ions. In order to
understand how their strong repulsion affects the crystal structure and
dynamics, we study the thermal motion and rearrangement of small mixed linear
and homogeneous crystals by both measurements and simulations. Co-crystallized
HCIs divide the crystal into domains, where different reordering rates, melting
points and localized phase transitions are observed due to decoupling of
motional modes across boundaries. These results improve our understanding of
homogeneous and inhomogeneous ion strings over a wide range of charge-to-mass
ratios. This allows us to test our own simulations of the dynamic behavior of
ion strings and gives us confidence in their suitability for applications
related to quantum simulation as well as computing and the search for new
physics.
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