A functional thorium-229 optical nuclear clock is demonstrated in a solid-state crystal with shot-noise limited performance and applied to dark matter constraints.
Probing ultralight dark matter at the Mega-Planck scale with the thorium nuclear clock,
5 Pith papers cite this work. Polarity classification is still indexing.
years
2026 5verdicts
UNVERDICTED 5representative citing papers
Demonstration of record conversion efficiency for a 148 nm VUV frequency comb using 16th-harmonic generation in a bulk-grown QPM crystal.
Ultralight dark matter induces oscillating CKM elements that can be probed at NA62 through direct counting of meson decay events, which avoids sensitivity loss from unknown particle flux.
Nuclear DFT calculations determine the B(M1) transition strength between the 3/2+ ground and 5/2+ isomeric states in 229Th and report favorable agreement with experiment without parameter adjustment.
Colloquium overview of Th-229 nuclear clock development, covering its nuclear physics basis, recent direct laser excitation, clock design and systematics in traps and solids, and sensitivity to fundamental constant variations.
citing papers explorer
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A thorium-229 optical nuclear clock with feedback loop
A functional thorium-229 optical nuclear clock is demonstrated in a solid-state crystal with shot-noise limited performance and applied to dark matter constraints.
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Record nonlinear conversion efficiency in the production of high spectral purity vacuum ultraviolet laser at 148 nm
Demonstration of record conversion efficiency for a 148 nm VUV frequency comb using 16th-harmonic generation in a bulk-grown QPM crystal.
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Oscillating Imprints of Dark Matter in Mesons Decays
Ultralight dark matter induces oscillating CKM elements that can be probed at NA62 through direct counting of meson decay events, which avoids sensitivity loss from unknown particle flux.
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Radiative decay and electromagnetic moments in $^{229}$Th determined within nuclear DFT
Nuclear DFT calculations determine the B(M1) transition strength between the 3/2+ ground and 5/2+ isomeric states in 229Th and report favorable agreement with experiment without parameter adjustment.
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Colloquium: Nuclear clocks
Colloquium overview of Th-229 nuclear clock development, covering its nuclear physics basis, recent direct laser excitation, clock design and systematics in traps and solids, and sensitivity to fundamental constant variations.