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Main Authors: Caylor, J., Biswas, R., Crawford, B., Dewey, M. S., Fomin, N., Greene, G. L., Hoogerheide, S. F., Hungria-Negron, J., Mumm, H. P., Nico, J. S., Wietfeldt, F. E., Valete, D. O., Zuchegno, J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.01682
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author Caylor, J.
Biswas, R.
Crawford, B.
Dewey, M. S.
Fomin, N.
Greene, G. L.
Hoogerheide, S. F.
Hungria-Negron, J.
Mumm, H. P.
Nico, J. S.
Wietfeldt, F. E.
Valete, D. O.
Zuchegno, J.
author_facet Caylor, J.
Biswas, R.
Crawford, B.
Dewey, M. S.
Fomin, N.
Greene, G. L.
Hoogerheide, S. F.
Hungria-Negron, J.
Mumm, H. P.
Nico, J. S.
Wietfeldt, F. E.
Valete, D. O.
Zuchegno, J.
contents One method of determining the free neutron lifetime involves the absolute counting of neutrons and trapped decay protons. In such experiments, a cold neutron beam traverses a segmented proton trap inside a superconducting solenoid while the neutron flux is continuously monitored. Protons that are born within the fiducial volume of the trap are confined radially by the magnetic field and axially by the electrostatic potential supplied by trap electrodes. They are periodically released and counted, and the ratio of the absolute number of neutrons to protons is proportional to the neutron lifetime. Systematic error can be introduced if protons in the trap are lost, gained, or misidentified. The influence of molecular hydrogen interactions is of particular interest because of its ubiquitous presence in ultrahigh vacuum systems. To understand how it could affect the neutron lifetime, measurements were performed on the production and detection of molecular hydrogen in an apparatus used to measure the neutron lifetime. We demonstrate that charge exchange with molecular hydrogen can occur with trapped protons, and we determine the efficiency with which the molecular hydrogen ions in the trap are detected. Finally, we comment on the potential impact on a neutron lifetime experiment using this beam technique. We find that the result of the beam neutron lifetime performed at NIST is unlikely to have been significantly affected by charge exchange with molecular hydrogen.
format Preprint
id arxiv_https___arxiv_org_abs_2506_01682
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Detection of molecular hydrogen in a neutron beam lifetime experiment
Caylor, J.
Biswas, R.
Crawford, B.
Dewey, M. S.
Fomin, N.
Greene, G. L.
Hoogerheide, S. F.
Hungria-Negron, J.
Mumm, H. P.
Nico, J. S.
Wietfeldt, F. E.
Valete, D. O.
Zuchegno, J.
Nuclear Experiment
One method of determining the free neutron lifetime involves the absolute counting of neutrons and trapped decay protons. In such experiments, a cold neutron beam traverses a segmented proton trap inside a superconducting solenoid while the neutron flux is continuously monitored. Protons that are born within the fiducial volume of the trap are confined radially by the magnetic field and axially by the electrostatic potential supplied by trap electrodes. They are periodically released and counted, and the ratio of the absolute number of neutrons to protons is proportional to the neutron lifetime. Systematic error can be introduced if protons in the trap are lost, gained, or misidentified. The influence of molecular hydrogen interactions is of particular interest because of its ubiquitous presence in ultrahigh vacuum systems. To understand how it could affect the neutron lifetime, measurements were performed on the production and detection of molecular hydrogen in an apparatus used to measure the neutron lifetime. We demonstrate that charge exchange with molecular hydrogen can occur with trapped protons, and we determine the efficiency with which the molecular hydrogen ions in the trap are detected. Finally, we comment on the potential impact on a neutron lifetime experiment using this beam technique. We find that the result of the beam neutron lifetime performed at NIST is unlikely to have been significantly affected by charge exchange with molecular hydrogen.
title Detection of molecular hydrogen in a neutron beam lifetime experiment
topic Nuclear Experiment
url https://arxiv.org/abs/2506.01682