$\mathcal{P,T}$-odd effects in YbCu, YbAg and YbAu

TL;DR

This study calculates the molecular enhancement factors for $ ext{P,T}$-odd interactions in YbCu, YbAg, and YbAu molecules using relativistic coupled-cluster methods, providing reliable values for future experimental searches of fundamental symmetry violations.

Contribution

It offers the first detailed relativistic calculations of $ ext{P,T}$-odd effects in these molecules, including uncertainty analysis and comparison of different computational schemes.

Findings

Calculated enhancement factors with uncertainties for each molecule.

Identified electronic structure effects influencing the enhancement factors.

Provided recommended values for experimental reference.

Abstract

In this work, the molecular enhancement factors of the $\mathcal{P,T}$-odd interactions involving the electron electric dipole moment ($W_\mathrm{d}$) and the scalar-pseudoscalar nucleon-electron couplings ($W_\mathrm{s}$) are computed for the ground state of the bimetallic molecules YbCu, YbAg and YbAu. These systems offer a promising venue for creating cold molecules by associating laser cooled atoms. The relativistic coupled-cluster approach is used in the calculations and a thorough uncertainty analysis is performed to give accurate and reliable uncertainties to the obtained values. Furthermore, an in-depth investigation of the different electronic structure effects that determine the magnitude of the calculated enhancement factors is carried out, and two different schemes for computing $W_\mathrm{d}$ are compared. The recommended values for the enhancement factors are $(13.24\pm0.03)\times10^{24}\frac{h\,\text{Hz}}{e\,\text{cm}}$, $(12.15\pm0.08)\times10^{24}\frac{h\,\text{Hz}}{e\,\text{cm}}$ and $(2.13\pm0.28)\times10^{24}\frac{h\,\text{Hz}}{e\,\text{cm}}$ for $W_\mathrm{d}$, and $(-48.36\pm0.18)\;h\,\text{kHz}$, $(-45.51\pm0.43)\;h\,\text{kHz}$ and $(5.31\pm1.80)\;h\,\text{kHz}$ for $W_\mathrm{s}$, for YbCu, YbAg and YbAu, respectively.