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Paper detail

Controlling long ion strings for quantum simulation and precision measurements

Scaling a trapped-ion based quantum simulator to a large number of ions creates a fully-controllable quantum system that becomes inaccessible to numerical methods. When highly anisotropic trapping potentials are used to confine the ions in the form of a long linear string, several challenges have to be overcome to achieve high-fidelity coherent control of a quantum system extending over hundreds of micrometers. In this paper, we describe a setup for carrying out many-ion quantum simulations including single-ion coherent control that we use for demonstrating entanglement in 50-ion strings. Furthermore, we present a set of experimental techniques probing ion-qubits by Ramsey and Carr-Purcell-Meiboom-Gill (CPMG) pulse sequences that enable detection (and compensation) of power-line-synchronous magnetic-field variations, measurement of path length fluctuations, and of the wavefronts of elliptical laser beams coupling to the ion string.

preprint2021arXivOpen access
Florian KranzlManoj K. JoshiChristine MaierTiff BrydgesJohannes FrankeRainer BlattChristian F. Roos
quant-ph
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Florian KranzlManoj K. JoshiChristine MaierTiff BrydgesJohannes FrankeRainer BlattChristian F. Roos

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