Enhanced parity and time-reversal-symmetry violation in diatomic molecules: LaO, LaS, and LuO

Yuly Chamorro*, Victor V. Flambaum, Ronald F. Garcia Ruiz, Anastasia Borschevsky, Lukáš F. Pašteka

*Corresponding author voor dit werk

OnderzoeksoutputAcademicpeer review

1 Citaat (Scopus)

Samenvatting

High-precision measurements of symmetry violations in molecules are a promising route to test the standard model of particle physics. In particular, the violation of parity (𝑃) and time-reversal (𝑇) symmetry is enhanced in the LaS, LaO, and LuO molecules due to the small energy differences between states of opposite parity (0.2 cm−1 or less) in the electronic ground state. We calculate the molecular enhancement for the relevant symmetry-violating interactions in these molecules, i.e., the 𝑃,𝑇-violating electron electric dipole moment 𝑊d, scalar-pseudoscalar nucleon-electron interaction 𝑊s, and nuclear magnetic quadrupole moment 𝑊M, and for the nuclear-spin-dependent 𝑃-violating anapole moment 𝑊A. We use the relativistic four-component coupled-cluster method and perform a systematic study to estimate the associated uncertainties in our approach. We find that the individual contribution of each computational parameter to the total uncertainty in a system is approximately the same for all the calculated enhancement factors, summing up to a total uncertainty of ∼6%. Furthermore, we use simple nuclear models to estimate the magnitude of the anapole moment and the magnetic quadrupole moment, from which we calculate the matrix elements probed in experiments and the sensitivity to beyond-the -standard-model physics in terms of higher-energy 𝑃,𝑇-violating coupling constants, respectively.
Originele taal-2English
Artikelnummer042806
Aantal pagina's12
TijdschriftPhysical Review A
Volume110
Nummer van het tijdschrift4
DOI's
StatusPublished - okt.-2024

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