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Probing new bosons and nuclear structure with ytterbium isotope shifts

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arxiv 2403.07792 v2 pith:YUIIDKEG submitted 2024-03-12 physics.atom-ph hep-phnucl-exnucl-th

Probing new bosons and nuclear structure with ytterbium isotope shifts

classification physics.atom-ph hep-phnucl-exnucl-th
keywords nuclearisotopemeasurementsprecisionstructuretimesab-initioadditionally
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In this Letter, we present mass-ratio measurements on highly charged Yb$^{42+}$ ions with a precision of $4\times 10^{-12}$ and isotope-shift measurements on Yb$^{+}$ on the $^{2}$S$_{1/2}$ $\to$ $^{2}$D$_{5/2}$ and $^{2}$S$_{1/2}$ $\to$ $^{2}$F$_{7/2}$ transitions with a precision of $4\times 10^{-9}$ for the isotopes $^{168,170,172,174,176}$Yb. We present a new method that allows us to extract higher-order changes in the nuclear charge distribution along the Yb isotope chain, benchmarking ab-initio nuclear structure calculations. Additionally, we perform a King plot analysis to set bounds on a fifth force in the keV$/c^2$ to MeV$/c^2$ range coupling to electrons and neutrons.

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Cited by 2 Pith papers

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    A combined ab initio and experimental analysis of nuclear form factors reduces uncertainties in superallowed beta-decay rates, enabling a more precise first-row CKM unitarity test.

  2. Quantum Monte Carlo calculations of Zemach moments in $A\leq 9$ nuclei

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    Ab initio QMC calculations with Norfolk chiral interactions give a larger Zemach radius for 6Li than atomic data and agreement for 9Be, tracing prior discrepancies to model-dependent magnetic radius inputs.