Blackbody radiation shift assessment for a lutetium ion clock

Arpan Roy; Kyle J. Arnold; Murray D. Barrett; Rattakorn Kaewuam; Ting Rei Tan

arxiv: 1712.00240 · v2 · pith:S245N3A6new · submitted 2017-12-01 · ⚛️ physics.atom-ph · quant-ph

Blackbody radiation shift assessment for a lutetium ion clock

Kyle J. Arnold , Rattakorn Kaewuam , Arpan Roy , Ting Rei Tan , Murray D. Barrett This is my paper

classification ⚛️ physics.atom-ph quant-ph

keywords clockleftrightarrowradiationtransitionsassessmentatomicblackblackbody

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We measure the dynamic differential scalar polarizabilities at 10.6 $\mu$m for two candidate clock transitions in $^{176}\mathrm{Lu}^+$. The fractional black body radiation (BBR) shifts at 300 K for the $^1S_0 \leftrightarrow {^3D_1}$ and $^1S_0 \leftrightarrow {^3D_2}$ transitions are evaluated to be $-1.36\,(9) \times 10^{-18}$ and $2.70 \,(21) \times10^{-17}$, respectively. The former is the lowest of any established optical atomic clock.

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Blackbody radiation shift assessment for a lutetium ion clock

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