Enhanced nuclear spin dependent parity violation effects using the 199HgH molecule

Abstract

Electron interactions with the nuclear-spin-dependent (NSD) parity non-conserving (PNC) anapole moment are strongly enhanced within heteronuclear diatomic molecules. A novel, low-energy optical rotation experiment is being proposed with the aim of observing NSD PNC interactions in HgH. Based on the relativistic coupled cluster method we present a complete calculation of the circular polarization parameter P = 2\,Im(E1PNC)/M1 ≈ 3 × 10-6\; for the 21/2 21/2 optical transition of HgH, where is a dimensionless constant determined by the nuclear anapole moment. This provides an improvement in sensitivity to NSD PNC by 2 -- 3 orders of magnitude over the leading atomic Xe, Hg, Tl, Pb and Bi optical rotation experiments, and shows that the proposed measurement will be sensitive enough to extract the 199Hg anapole moment and shed light on the underlying theory of hadronic parity violation.