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arxiv: 2507.07473 · v1 · pith:Q6EMLZ4Z · submitted 2025-07-10 · hep-ex · physics.atom-ph

Demonstration of deuterium's enhanced sensitivity to symmetry violations governed by the Standard-Model Extension

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classification hep-ex physics.atom-ph
keywords coefficientsdeuteriumextensionhyperfinesensitivitystandard-modelsymmetryviolations
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We have performed hyperfine spectroscopy of two transitions in ground-state deuterium and searched for violations of \CPT and Lorentz symmetry that would manifest as sidereal variations of the observed transition frequencies. Several non-relativistic proton coefficients of the Standard-Model Extension framework have been addressed. The spin-independent coefficients with momentum power $k$=2,4 are constrained for the first time. Bounds on spin-dependent coefficients are improved by exploiting a sensitivity enhancement originating from the relative momenta of the nucleons in the deuteron. The best previous constraints by hydrogen maser measurements are surpassed by 4 and 14 orders of magnitude for coefficients with $k$=2 and 4, respectively. Furthermore, we find a deuterium zero-field hyperfine splitting of \SI{327.3843549(0.0000028)}{\mega \hertz}. This is in agreement with the literature and presents the most precise in-beam measurement of this quantity.

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