First non-zero measurement of a nuclear electric dipole moment

Abstract

This paper reports the first non-zero measurement of a nuclear electric dipole moment using a novel method based on the rate of change of a supercurrent first proposed in 2016~https://doi.org/10.48550/arxiv.1604.02152 and fleshed out in this current paper. The theory, experimental concept and implementation are described in detail. The non-zero nuclear electric dipole moment measured with over 1000 hours of data was that of 181Ta producing a best value |deTa|=(3.390.31stat)·10-32e·cm and |deTa|=(3.393.18)·10-32e·cm>0 at 99.985\%CL. There is an uncertainty on the value of overall multiplicative parameters such as the self-inductance of the superconducting circuit (4\%), the mutual inductance between the SQUID pickup coil and the sample wire (15\%), and the magnitude of the solenoid current (5\%). An upper-limit was estimated for the control element, 207Pb, |dePb|1.2·10-31e·cm at 95\%CL.

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