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Measurement of the anomalous precession frequency of the muon in the Fermilab Muon<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mi>g</mml:mi><mml:mo>−</mml:mo><mml:mn>2</mml:mn></mml:math>Experiment

T. Albahri, A. Anastasi, A. V. Anisenkov, K. Badgley, S. Baeßler, I. Bailey, V. A. Baranov, E. Barlas-Yucel, T. Barrett, A. Basti, F. Bedeschi, Martin Berz, Meghna Bhattacharya, H. P. Binney, P. Bloom, J. Bono, E. Bottalico, T. J. V. Bowcock, G. Cantatore, R. M. Carey, B. C. K. Casey, D. Cauz, R. Chakraborty, S. P. Chang, A. Chapelain, S. Charity, R. T. Chislett, J. Choi, Z. Chu, T. E. Chupp, S. Corrodi, L. Cotrozzi, J. Crnkovic, С.Б. Дабагов, P. T. Debevec, S. Di Falco, P. Di Meo, G. Di Sciascio, R. Di Stefano, A. Driutti, V. N. Duginov, M. Eads, J. Esquivel, M. Farooq, R. Fatemi, C. Ferrari, M. Fertl, Aaron Fienberg, A. Fioretti, D. Flay, E. Frlež, N. S. Froemming, J. R. Fry, C. Gabbanini, M. D. Galati, S. Ganguly, A. Garcı́a, J. George, L. Gibbons, A. Gioiosa, K. L. Giovanetti, P. Girotti, W. Gohn, T. P. Gorringe, J. Grange, S. Grant, F. Gray, Selçuk Hacıömeroğlu, T. Halewood-leagas, D. Hampai, F. Han, J. Hempstead, A. T. Herrod, D. W. Hertzog, G. G. Hesketh, Angela Hibbert, Z. Hodge, J. L. Holzbauer, K. W. Hong, R. Hong, M. Iacovacci, M. Incagli, P. Kammel, M. Kargiantoulakis, M. Karuza, J. Kašpar, D. Kawall, L. Kelton, A. Keshavarzi, D. Kessler, Kim Siang Khaw, Z. Khechadoorian, N. V. Khomutov, B. Kiburg, M. Kiburg, Oui Woong Kim, Y. I. Kim, B. T. King, N. Kinnaird, E. Kraegeloh

2021Physical review. D/Physical review. D.196 citationsDOIOpen Access PDF

Abstract

The Muon g -2 Experiment at Fermi National Accelerator Laboratory (FNAL) has measured the muon anomalous precession frequency m a to an uncertainty of 434 parts per billion (ppb), statistical, and 56 ppb, systematic, with data collected in four storage ring configurations during its first physics run in 2018. When combined with a precision measurement of the magnetic field of the experiment's muon storage ring, the precession frequency measurement determines a muon magnetic anomaly of a FNAL 116 592 04054 10 -11 (0.46 ppm). This article describes the multiple techniques employed in the reconstruction, analysis, and fitting of the data to measure the precession frequency. It also presents the averaging of the results from the 11 separate determinations of m a , and the systematic uncertainties on the result.

Topics & Concepts

MuonFermilabPrecessionPhysicsNuclear physicsParticle physicsAstronomyParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
Measurement of the anomalous precession frequency of the muon in the Fermilab Muon<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mi>g</mml:mi><mml:mo>−</mml:mo><mml:mn>2</mml:mn></mml:math>Experiment | Litcius