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An Optimized Ion Trap Geometry to Measure Quadrupole Shifts of ¹⁷¹Yb^+ Clocks

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arxiv 1512.07368 v1 pith:YUK3AOLF submitted 2015-12-23 physics.atom-ph physics.ins-detphysics.optics

An Optimized Ion Trap Geometry to Measure Quadrupole Shifts of ¹⁷¹Yb^+ Clocks

classification physics.atom-ph physics.ins-detphysics.optics
keywords quadrupolethetashiftstrapgeometrymagnitudemeasuredmeasurements
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We propose a new ion-trap geometry to carry out accurate measurements of the quadrupole shifts in the $^{171}$Yb-ion. This trap will produce nearly ideal harmonic potential where the quadrupole shifts due to the anharmonic components can be reduced by four orders of magnitude. This will be useful to reduce the uncertainties in the clock frequency measurements of the $6s~{^2}S_{1/2} \rightarrow 4f^{13} 6s^2 ~{^2}F_{7/2}$ and $6s~{^2}S_{1/2} \rightarrow 5d ~{^2}D_{3/2}$ transitions, from which we can deduce precise values of the quadrupole moments ($\Theta$s) of the $4f^{13} 6s^2 ~{^2}F_{7/2}$ and $5d ~{^2}D_{3/2}$ states. Moreover, it may be able to affirm validity of the measured $\Theta$ value of the $4f^{13} 6s^2 ~{^2}F_{7/2}$ state where three independent theoretical studies defer almost by one order in magnitude from the measurement. We also perform calculations of $\Theta$s using the relativistic coupled-cluster (RCC) method. We use these $\Theta$ values to estimate quadrupole shift that can be measured in our proposed ion trap experiment.

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