Proposal with calculations indicates cavity-enhanced P,T-odd Faraday rotation on Tl, Pb, PbF, YbF, ThO, and YbOH could improve eEDM limits by 6-7 orders of magnitude.
Enhancement factor for the electric dipole moment of the electron in the BaOH and YbOH molecules
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abstract
Polyatomic polar molecules are promising systems for future experiments that search for violation of time-reversal and parity symmetries due to their advantageous electronic and vibrational structure, which allows laser cooling, full polarisation of the molecule, and reduction of systematic effects [I. Kozyryev and N.R. Hutzler, Phys, Rev. Lett. {\bf 119}, 133002 (2017)]. In this work we investigate the enhancement factor of the electric dipole moment of the electron ($E_\text{eff}$) in the triatomic monohydroxide molecules BaOH and YbOH within the high-accuracy relativistic coupled cluster method. The recommended $E_\text{eff}$ values of the two systems are 6.65 $\pm$ 0.15 GV/cm and 23.4 $\pm$ 1.0 GV/cm, respectively. We compare our results with similar calculations for the isoelectronic diatomic molecules BaF and YbF, which are currently used in experimental search for $P,T$-odd effects in molecules. The $E_\text{eff}$ values prove to be very close, within about 1.5 $\%$ difference in magnitude between the diatomic and the triatomic compounds. Thus, BaOH and YbOH have a similar enhancement of the electron electric dipole moment, while benefiting from experimental advantages, and can serve as excellent candidates for next-generation experiments.
fields
physics.atom-ph 1years
2019 1verdicts
UNVERDICTED 1representative citing papers
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$\mathcal{P}$,$\mathcal{T}$-odd Faraday rotation on atoms and molecules in intra-cavity absorption spectroscopy as an alternative way to search for the $\mathcal{P}$,$\mathcal{T}$-odd effects in nature
Proposal with calculations indicates cavity-enhanced P,T-odd Faraday rotation on Tl, Pb, PbF, YbF, ThO, and YbOH could improve eEDM limits by 6-7 orders of magnitude.