1. An optimized ion trap geometry to measure quadrupole shifts of 171Yb+ clocks.
- Author
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N Batra, B K Sahoo, and S De
- Subjects
ION traps ,MEASURE theory ,QUADRUPOLE moments ,GEOMETRY ,POTENTIAL theory (Physics) - Abstract
We propose a new ion-trap geometry to carry out accurate measurements of the quadrupole shifts in the
171 Yb ion. This trap will minimize the quadrupole shift due to the harmonic component of the confining potential by an order of magnitude. This will be useful to reduce the uncertainties in the clock frequency measurements of the 6s2 S1/2 → 4f13 6s2 2 F7/2 and 6s2 S1/2 → 5d2 D3/2 transitions, from which we can deduce the precise values of the quadrupole moments (Θs) of the 4f13 6s2 2 F7/2 and 5d2 D3/2 states. Moreover, it may be able to affirm the validity of the measured Θ value of the 4f13 6s2 2 F7/2 state, for which three independent theoretical studies defer almost by one order of magnitude from the measurement. We also calculate Θs using the relativistic coupled-cluster (RCC) method. We use these Θ values to estimate the quadrupole shift that can be measured in our proposed ion trap experiment. [ABSTRACT FROM AUTHOR]- Published
- 2016
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