Abstract

Experiments searching for the electric dipole moment (EDM) of the electron $d_e$ utilise atomic/molecular states with one or more uncompensated electron spins, and these paramagnetic systems have recently achieved remarkable sensitivity to $d_e$. If the source of $CP$ violation resides entirely in the hadronic sector, the two-photon exchange processes between electrons and the nucleus induce $CP$-odd semileptonic interactions, parametrised by the Wilson coefficient $C_{SP}$, and provide the dominant source of EDMs in paramagnetic systems instead of $d_e$. We evaluate the $C_{SP}$ coefficients induced by the leading hadronic sources of $CP$ violation, namely nucleon EDMs and $CP$-odd pion-nucleon couplings, by calculating the nucleon-number-enhanced $CP$-odd nuclear scalar polarisability, employing chiral perturbation theory at the nucleon level and the Fermi-gas model for the nucleus. This allows us to translate the ACME EDM limits from paramagnetic ThO into novel independent constraints on the QCD theta term $|\bar \theta| < 3 \times 10^{-8}$, proton EDM $|d_p| < 2 \times 10^{-23}\,e\,{\rm cm}$, isoscalar $CP$-odd pion-nucleon coupling $|\bar g^{(1)}_{\pi NN}| < 4 \times 10^{-10}$, and colour EDMs of quarks $|\tilde d_u - \tilde d_d| < 2 \times 10^{-24}\,{\rm cm}$. We note that further experimental progress with EDM experiments in paramagnetic systems may allow them to rival the sensitivity of EDM experiments with neutrons and diamagnetic atoms to these quantities.

Highlights

  • The origin of the matter-antimatter asymmetry in the Universe continues to present us with one of the primary empirical motivations for new physics

  • We evaluate the CSP coefficients induced by the leading hadronic sources of CP violation, namely, nucleon electric dipole moment (EDM) and CP-odd pion-nucleon couplings, by calculating the nucleon-number-enhanced CP-odd nuclear scalar polarizability, employing chiral perturbation theory at the nucleon level and the Fermi-gas model for the nucleus

  • We have shown that paramagnetic EDM experiments, by virtue of their dramatic recent gains, are exhibiting levels of sensitivity to hadronic sources of CP violation that are becoming competitive with experiments focusing directly on the nuclear Schiff moment and the neutron EDM

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Summary

INTRODUCTION

The origin of the matter-antimatter asymmetry in the Universe continues to present us with one of the primary empirical motivations for new physics. The semileptonic operators in (1) can in turn be induced by the leading sources of CP violation at the hadronic level, Lhadronic i 2 dnn Fμνσμνγ5n i 2 dpp Fμνσμνγ5p þ gðπ0NÞNNτaNπa þ gðπ1NÞNN Nπ0 þ Á Á Á ; ð4Þ where N 1⁄4 ðp; nÞT is the nucleon doublet, dn;p refers to nucleon EDMs, and gðπ0N;1NÞ are the isovector and isoscalar CP-odd pion-nucleon couplings, respectively. This formula can be generalized to include CP-odd interactions with the octet η meson, ηNðgðη0NÞN þ gðη1NÞNτ3ÞN. We will examine the leading dependencies in (5) and explore the induced sensitivity to fundamental CP-violating hadronic sources

SEMILEPTONIC OPERATORS INDUCED BY CP-ODD NUCLEON POLARIZABILITIES
SEMILEPTONIC OPERATORS INDUCED BY NUCLEON EDMS
CONSTRAINTS ON CP-VIOLATING PARAMETERS
DISCUSSION

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