Long linear chains of trapped ions concentrate the motional spectrum to revive strong carrier excitation of narrow optical transitions outside the Lamb-Dicke regime.
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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.
Bessel beam nuclear forward scattering in 229Th:CaF2 can determine the relative distribution of quantization axis directions inside the crystal.
citing papers explorer
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Carrier Revival in Long Trapped-Ion Chains
Long linear chains of trapped ions concentrate the motional spectrum to revive strong carrier excitation of narrow optical transitions outside the Lamb-Dicke regime.
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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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Nuclear forward scattering of Bessel beams in $^{229}$Th:CaF$_2$
Bessel beam nuclear forward scattering in 229Th:CaF2 can determine the relative distribution of quantization axis directions inside the crystal.