First Atomic Electric Dipole Moment Limit Derived from an Octupole-Deformed Nucleus

Richard Parker; Michael Bishof; Mukut Kalita; Nathan Lemke; Matt Dietrich; Kevin Bailey; John Greene; Roy Holt; Wolfgang Korsch; Zheng-Tian Lu; Peter Mueller; T.P. O'Connor; Jaideep Singh

First Atomic Electric Dipole Moment Limit Derived from an Octupole-Deformed Nucleus

ORAL

Abstract

Ra-225 (half-life $=$ 15 d, nuclear spin $=$ 1/2) is a promising isotope for a measurement of the EDM of a diamagnetic atom. Due to its large nuclear octupole deformation and high atomic mass, the EDM sensitivity of Ra-225 is expected to be 2-3 orders of magnitude larger than that of Hg-199. We demonstrate an efficient multiple-stage apparatus in which radium atoms are first loaded into a MOT, then transferred into a movable optical-dipole trap (ODT) that carries the atoms over 1 m to a magnetically-shielded science chamber, loaded into a standing-wave ODT, polarized, and then allowed to precess in magnetic and electric fields. We will discuss our first measurement of the EDM of Ra-225, as well as plans for future improvements. This work is supported by DOE, Office of Nuclear Physics (DE-AC02-06CH11357).

June 10, 2015, 10:54 AM – June 10, 2015, 11:06 AM

Authors

Richard Parker
- University of Chicago
Michael Bishof
- Argonne National Laboratory
Mukut Kalita
- University of Kentucky
Nathan Lemke
- Argonne National Laboratory
Matt Dietrich
- Argonne National Laboratory
Kevin Bailey
- Argonne National Laboratory
John Greene
- Argonne National Laboratory
Roy Holt
- Argonne National Laboratory
Wolfgang Korsch
- Argonne National Laboratory
Zheng-Tian Lu
- Argonne National Laboratory
Peter Mueller
- Argonne National Laboratory
T.P. O'Connor
- Argonne National Laboratory
Jaideep Singh
- Michigan State University