An exact analytical Gaussian-basis formula for the electronic NSI term avoids first-order truncation and shows prior numerical methods overestimate the interaction by over 50% in RaO and 300% in LrF.
S.et al.An improved bound on the electron’s electric dipole moment.Science381
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A new method calculates electric-field-dependent g-factors for the first excited rotational level of RaOCH3 and identifies K-doublet levels with small g-factor differences.
Radioactive molecules offer enhanced sensitivity to new physics through combined nuclear and molecular properties, providing a platform complementary to high-energy colliders.
citing papers explorer
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Analytical Representation for the Electronic Contribution of the Nuclear Schiff Interaction Hamiltonian
An exact analytical Gaussian-basis formula for the electronic NSI term avoids first-order truncation and shows prior numerical methods overestimate the interaction by over 50% in RaO and 300% in LrF.
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Electric field dependent g factors of RaOCH$_3$ molecule
A new method calculates electric-field-dependent g-factors for the first excited rotational level of RaOCH3 and identifies K-doublet levels with small g-factor differences.
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Radioactive Molecules as Laboratories of Fundamental Physics
Radioactive molecules offer enhanced sensitivity to new physics through combined nuclear and molecular properties, providing a platform complementary to high-energy colliders.