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W2892019875 abstract "We present the results of simulations of optical sideband cooling of atomic ions in a trap with a shallow potential well. In such traps, an ion cannot be Doppler cooled near to the Lamb-Dicke regime ($eta^2(2n+1) ll 1$). Outside the Lamb-Dicke regime, the sideband cooling dynamics are altered by the existence of various Fock states where the cooling becomes very slow. A calcium ion trapped in our Penning trap realises such a situation, hence single stage cooling is inefficient to prepare the ion in the motional ground state. For these systems, it is necessary to study the cooling dynamics in detail and we show that it is possible to implement an optimised cooling sequence to achieve efficient ground state cooling. We also present the simulated cooling dynamics of two ions trapped in a Penning trap, where the presence of an additional motional mode requires a complicated cooling sequence in order to cool both axial modes to the ground state simultaneously. Additionally we investigate sideband heating of a single ion in a Penning trap." @default.
W2892019875 created "2018-09-27" @default.
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W2892019875 date "2019-01-18" @default.
W2892019875 modified "2023-09-24" @default.
W2892019875 title "Population dynamics in sideband cooling of trapped ions outside the Lamb-Dicke regime" @default.
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W2892019875 doi "https://doi.org/10.1103/physreva.99.013423" @default.
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