Document Type
Article
Publication Date
4-26-2021
Abstract
The aCORN experiment measures the neutron-decay electron-antineutrino correlation (a coefficient) using a novel method based on an asymmetry in proton time-of-flight for events where the beta electron and recoil proton are detected in delayed coincidence. We report the data analysis and result from the second run at the NIST Center for Neutron Research, using the high-flux cold neutron beam on the new NG-C neutron guide end position: a=−0.10758±0.00136(stat)±0.00148(sys). This is consistent within uncertainties with the result from the first aCORN run on the NG-6 cold neutron beam. Combining the two aCORN runs, we obtain a=−0.10782±0.00124(stat)±0.00133(sys), which has an overall relative standard uncertainty of 1.7%. The corresponding result for the ratio of weak coupling constants λ=GA/GV is λ=−1.2796±0.0062.
Recommended Citation
Hassan, M. T., Byron, W. A., Darius, G., DeAngelis, C., Wietfeldt, F. E., Collett, B., Jones, G. L., Komives, A., Noid, G., Stephenson, E. J., Bateman, F., Dewey, M. S., Gentile, T. R., Mendenhall, M. P., & Nico, J. S. (2021). Measurement of the neutron decay electron-antineutrino angular correlation by the acorn experiment. Physical Review C, 103(4). https://doi.org/10.1103/PhysRevC.103.045502
Comments
This is a preprint of the published article, which is available here.