Relativistic coupled-cluster calculations of Th³⁺ properties combined with experiment yield accurate differential nuclear charge radii and hyperfine moments for ²²⁹Th ground and isomeric states.
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A new planar multipass vapor cell achieves long coherence and high optical depth, enabling compact FID magnetometers with 28 fT/√Hz differential sensitivity.
Global fit of new and prior microwave data for BaF isotopologues improves hyperfine parameters and links BOB structure in the rotational constant to nuclear field shifts.
citing papers explorer
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Comprehensive Assessment of $\mathrm{Th}^{3+}$ Properties for Nuclear Clock and Fundamental Physics Applications
Relativistic coupled-cluster calculations of Th³⁺ properties combined with experiment yield accurate differential nuclear charge radii and hyperfine moments for ²²⁹Th ground and isomeric states.
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FID Magnetometer Based on Paraffin-Coated Planar Reflective Multipass Cells
A new planar multipass vapor cell achieves long coherence and high optical depth, enabling compact FID magnetometers with 28 fT/√Hz differential sensitivity.
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Global isotopic analysis of hyperfine-resolved rotational spectroscopic data for barium monofluoride, BaF
Global fit of new and prior microwave data for BaF isotopologues improves hyperfine parameters and links BOB structure in the rotational constant to nuclear field shifts.