MEASUREMENT OF THE ELECTRON'S ELECTRIC DIPOLE MOMENT IN THORIUM MONOXIDE
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Date
2013
Journal Title
Journal ISSN
Volume Title
Publisher
Ohio State University
Abstract
Some polar diatomic molecules have large effective internal electric fields ($\mathcal{E}_{eff}\sim10^{11}\, V/cm$) that can be used to make measurements of the electron's electric dipole moment (eEDM) with unprecedented sensitivity. By performing precision spectroscopy on the metastable $H ^{3}\Delta_{1}$ state of ThO in a cryogenic buffer gas beam, we have demonstrated a statistical sensitivity to the eEDM of $\delta d_{e}\approx1\times10^{-28}\, e\cdot cm/\sqrt{T/\mbox{days}}$, which is competitive with the current experimental limit, $\left|d_{e}\right|<1.05\times10^{-27}e\cdot cm$. The existence of a non-zero eEDM on this level would be evidence for the existence of interactions that violate parity and time-reversal symmetries that are not included in the Standard Model. Many extensions to the Standard Model (in particular supersymmetric theories) predict the eEDM to be very close to the current experimental limit. We present an overview and discuss the characterization of systematic errors in this experiment.
Description
ACME COLLABORATION.
Author Institution: Harvard University; Yale University; Harvard University; Yale University; Harvard University
Author Institution: Harvard University; Yale University; Harvard University; Yale University; Harvard University