Precision Measurement of the Weak Charge of the Proton
D. Androic, D. S. Armstrong, A. Asaturyan, T. Averett, J. Balewski, K., Bartlett, J. Beaufait, R. S. Beminiwattha, J. Benesch, F. Benmokhtar, J., Birchall, R. D. Carlini, J. C. Cornejo, S. Covrig Dusa, M. M. Dalton, C. A., Davis, W. Deconinck, J. Diefenbach, J. F. Dowd

TL;DR
This paper reports a precise measurement of the proton's weak charge via parity-violating electron-proton scattering, providing a stringent test of the Standard Model and constraining new physics at multi-TeV scales.
Contribution
The study presents the most accurate measurement of the proton's weak charge, confirming Standard Model predictions and setting limits on potential new physics beyond current theories.
Findings
Measured Q_W^p=0.0719±0.0045
Results agree with Standard Model predictions
Sets constraints on new physics at multi-TeV scales
Abstract
The fields of particle and nuclear physics have undertaken extensive programs to search for evidence of physics beyond that explained by current theories. The observation of the Higgs boson at the Large Hadron Collider completed the set of particles predicted by the Standard Model (SM), currently the best description of fundamental particles and forces. However, the theory's limitations include a failure to predict fundamental parameters and the inability to account for dark matter/energy, gravity, and the matter-antimater asymmetry in the universe, among other phenomena. Given the lack of additional particles found so far through direct searches in the post-Higgs era, indirect searches utilizing precise measurements of well predicted SM observables allow highly targeted alternative tests for physics beyond the SM. Indirect searches have the potential to reach mass/energy scales beyond…
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