Precision pulse shape simulation for proton detection at the Nab experiment

Precision pulse shape simulation for proton detection at the Nab experiment

The Nab experiment at Oak Ridge National Laboratory, USA, aims to measure the beta-antineutrino angular correlation following neutron \(\beta\) decay to an anticipated precision of approximately 0.1\%. The proton momentum is reconstructed through proton time-of-flight measurements, and potential sys...

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Veröffentlicht in:arXiv.org 2022-12
Hauptverfasser: Hayen, Leendert, Jin Ha Choi, Combs, Dustin, Taylor, R J, Baeßler, Stefan, Birge, Noah, Broussard, Leah J, Crawford, Christopher B, Fomin, Nadia, Gericke, Michael, Gonzalez, Francisco, Jezghani, Aaron, Macsai, Nick, Makela, Mark, Mathews, David G, Mammei, Russell, McCrea, Mark, Mendelsohn, August, Nelsen, Austin, Riley, Grant, Shelton, Tom, Sjue, Sky, Smith, Erick, Young, Albert R, Zeck, Bryan
Format: Artikel
Sprache:eng
Schlagworte:
Angular correlation
Beta decay
Elementary excitations
Physics - Instrumentation and Detectors
Physics - Nuclear Experiment
Protons
Pulse shape
Research facilities
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Zusammenfassung:The Nab experiment at Oak Ridge National Laboratory, USA, aims to measure the beta-antineutrino angular correlation following neutron \(\beta\) decay to an anticipated precision of approximately 0.1\%. The proton momentum is reconstructed through proton time-of-flight measurements, and potential systematic biases in the timing reconstruction due to detector effects must be controlled at the nanosecond level. We present a thorough and detailed semiconductor and quasiparticle transport simulation effort to provide precise pulse shapes, and report on relevant systematic effects and potential measurement schemes.
ISSN:2331-8422
DOI:10.48550/arxiv.2212.03438