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Probing Time Dilation in Coulomb Crystals in a high-precision Ion Trap

Published 6 Dec 2017 in physics.atom-ph and quant-ph | (1712.02335v3)

Abstract: Trapped-ion optical clocks are capable of achieving systematic fractional frequency uncertainties of $10{-18}$ and possibly below. However, the stability of current ion clocks is fundamentally limited by the weak signal of single-ion interrogation. We present an operational, scalable platform for extending clock spectroscopy to arrays of Coulomb crystals consisting of several tens of ions, while allowing systematic shifts as low as $10{-19}$. Using a newly developed technique, we observe 3D excess micromotion amplitudes inside a Coulomb crystal with atomic spatial resolution and sub-nanometer amplitude uncertainties. We show that in ion Coulomb crystals of 400$\mu$m and 2mm length, time dilation shifts of In${}+$ ions due to micromotion can be close to $1\times10{-19}$ and below $10{-18}$, respectively. In previous ion traps, excess micromotion would have dominated the uncertainty budget for spectroscopy of even a few ions. By minimizing its contribution and providing a means to quantify it, this work opens up the path to precision spectroscopy in many-body ion systems, enabling entanglement-enhanced ion clocks and providing a well-controlled, strongly coupled quantum system.

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