The anomalous magnetic moment of the muon in the Standard Model

We review the present status of the Standard Model calculation of the anomalous magnetic moment of the muon. This is performed in a perturbative expansion in the fine-structure constant $\alpha$ and is broken down into pure QED, electroweak, and hadronic contributions. The pure QED contribution is b...

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Detalles Bibliográficos
Autores principales: Aoyama, T., Asmussen, N., Benayoun, M., Bijnens, J., Blum, T., Bruno, M., Caprini, I., Carloni Calame, C.M., Cè, M., Colangelo, G., Curciarello, F., Czyż, H., Danilkin, I., Davier, M., Davies, C.T.H., Della Morte, M., Eidelman, S.I., El-Khadra, A.X., Gérardin, A., Giusti, D., Golterman, M., Gottlieb, Steven, Gülpers, V., Hagelstein, F., Hayakawa, M., Herdoíza, G., Hertzog, D.W., Hoecker, A., Hoferichter, M., Hoid, B.-L., Hudspith, R.J., Ignatov, F., Izubuchi, T., Jegerlehner, F., Jin, L., Keshavarzi, A., Kinoshita, T., Kubis, B., Kupich, A., Kupść, A., Laub, L., Lehner, C., Lellouch, L., Logashenko, I., Malaescu, B., Maltman, K., Marinković, M.K., Masjuan, P., Meyer, A.S., Meyer, H.B., Mibe, T., Miura, K., Müller, S.E., Nio, M., Nomura, D., Nyffeler, A., Pascalutsa, V., Passera, M., Perez del Rio, E., Peris, S., Portelli, A., Procura, M., Redmer, C.F., Roberts, B.L., Sánchez-Puertas, P., Serednyakov, S., Shwartz, B., Simula, S., Stöckinger, D., Stöckinger-Kim, H., Stoffer, P., Teubner, T., Van de Water, R., Vanderhaeghen, M., Venanzoni, G., von Hippel, G., Wittig, H., Zhang, Z., Achasov, M.N., Bashir, A., Cardoso, N., Chakraborty, B., Chao, E.-H., Charles, J., Crivellin, A., Deineka, O., Denig, A., DeTar, C., Dominguez, C.A., Dorokhov, A.E., Druzhinin, V.P., Eichmann, G., Fael, M., Fischer, C.S., Gámiz, E., Gelzer, Z., Green, J.R., Guellati-Khelifa, S., Hatton, D., Hermansson-Truedsson, N., Holz, S., Hörz, B., Knecht, M., Koponen, J., Kronfeld, A.S., Laiho, J., Leupold, S., Mackenzie, P.B., Marciano, W.J., McNeile, C., Mohler, D., Monnard, J., Neil, E.T., Nesterenko, A.V., Ottnad, K., Pauk, V., Radzhabov, A.E., de Rafael, E., Raya, K., Risch, A., Rodríguez-Sánchez, A., Roig, P., San José, T., Solodov, E.P., Sugar, R., Todyshev, K.Yu., Vainshtein, A., Vaquero Avilés-Casco, A., Weil, E., Wilhelm, J., Williams, R., Zhevlakov, A.S.
Lenguaje:eng
Publicado: 2020
Materias:
Particle Physics - Phenomenology
nucl-th
Nuclear Physics - Theory
nucl-ex
Nuclear Physics - Experiment
hep-lat
Particle Physics - Lattice
hep-ex
Particle Physics - Experiment
hep-ph
Acceso en línea:https://dx.doi.org/10.1016/j.physrep.2020.07.006
http://cds.cern.ch/record/2718430
_version_ 1780965649859739648
author Aoyama, T.
Asmussen, N.
Benayoun, M.
Bijnens, J.
Blum, T.
Bruno, M.
Caprini, I.
Carloni Calame, C.M.
Cè, M.
Colangelo, G.
Curciarello, F.
Czyż, H.
Danilkin, I.
Davier, M.
Davies, C.T.H.
Della Morte, M.
Eidelman, S.I.
El-Khadra, A.X.
Gérardin, A.
Giusti, D.
Golterman, M.
Gottlieb, Steven
Gülpers, V.
Hagelstein, F.
Hayakawa, M.
Herdoíza, G.
Hertzog, D.W.
Hoecker, A.
Hoferichter, M.
Hoid, B.-L.
Hudspith, R.J.
Ignatov, F.
Izubuchi, T.
Jegerlehner, F.
Jin, L.
Keshavarzi, A.
Kinoshita, T.
Kubis, B.
Kupich, A.
Kupść, A.
Laub, L.
Lehner, C.
Lellouch, L.
Logashenko, I.
Malaescu, B.
Maltman, K.
Marinković, M.K.
Masjuan, P.
Meyer, A.S.
Meyer, H.B.
Mibe, T.
Miura, K.
Müller, S.E.
Nio, M.
Nomura, D.
Nyffeler, A.
Pascalutsa, V.
Passera, M.
Perez del Rio, E.
Peris, S.
Portelli, A.
Procura, M.
Redmer, C.F.
Roberts, B.L.
Sánchez-Puertas, P.
Serednyakov, S.
Shwartz, B.
Simula, S.
Stöckinger, D.
Stöckinger-Kim, H.
Stoffer, P.
Teubner, T.
Van de Water, R.
Vanderhaeghen, M.
Venanzoni, G.
von Hippel, G.
Wittig, H.
Zhang, Z.
Achasov, M.N.
Bashir, A.
Cardoso, N.
Chakraborty, B.
Chao, E.-H.
Charles, J.
Crivellin, A.
Deineka, O.
Denig, A.
DeTar, C.
Dominguez, C.A.
Dorokhov, A.E.
Druzhinin, V.P.
Eichmann, G.
Fael, M.
Fischer, C.S.
Gámiz, E.
Gelzer, Z.
Green, J.R.
Guellati-Khelifa, S.
Hatton, D.
Hermansson-Truedsson, N.
Holz, S.
Hörz, B.
Knecht, M.
Koponen, J.
Kronfeld, A.S.
Laiho, J.
Leupold, S.
Mackenzie, P.B.
Marciano, W.J.
McNeile, C.
Mohler, D.
Monnard, J.
Neil, E.T.
Nesterenko, A.V.
Ottnad, K.
Pauk, V.
Radzhabov, A.E.
de Rafael, E.
Raya, K.
Risch, A.
Rodríguez-Sánchez, A.
Roig, P.
San José, T.
Solodov, E.P.
Sugar, R.
Todyshev, K.Yu.
Vainshtein, A.
Vaquero Avilés-Casco, A.
Weil, E.
Wilhelm, J.
Williams, R.
Zhevlakov, A.S.
author_facet Aoyama, T.
Asmussen, N.
Benayoun, M.
Bijnens, J.
Blum, T.
Bruno, M.
Caprini, I.
Carloni Calame, C.M.
Cè, M.
Colangelo, G.
Curciarello, F.
Czyż, H.
Danilkin, I.
Davier, M.
Davies, C.T.H.
Della Morte, M.
Eidelman, S.I.
El-Khadra, A.X.
Gérardin, A.
Giusti, D.
Golterman, M.
Gottlieb, Steven
Gülpers, V.
Hagelstein, F.
Hayakawa, M.
Herdoíza, G.
Hertzog, D.W.
Hoecker, A.
Hoferichter, M.
Hoid, B.-L.
Hudspith, R.J.
Ignatov, F.
Izubuchi, T.
Jegerlehner, F.
Jin, L.
Keshavarzi, A.
Kinoshita, T.
Kubis, B.
Kupich, A.
Kupść, A.
Laub, L.
Lehner, C.
Lellouch, L.
Logashenko, I.
Malaescu, B.
Maltman, K.
Marinković, M.K.
Masjuan, P.
Meyer, A.S.
Meyer, H.B.
Mibe, T.
Miura, K.
Müller, S.E.
Nio, M.
Nomura, D.
Nyffeler, A.
Pascalutsa, V.
Passera, M.
Perez del Rio, E.
Peris, S.
Portelli, A.
Procura, M.
Redmer, C.F.
Roberts, B.L.
Sánchez-Puertas, P.
Serednyakov, S.
Shwartz, B.
Simula, S.
Stöckinger, D.
Stöckinger-Kim, H.
Stoffer, P.
Teubner, T.
Van de Water, R.
Vanderhaeghen, M.
Venanzoni, G.
von Hippel, G.
Wittig, H.
Zhang, Z.
Achasov, M.N.
Bashir, A.
Cardoso, N.
Chakraborty, B.
Chao, E.-H.
Charles, J.
Crivellin, A.
Deineka, O.
Denig, A.
DeTar, C.
Dominguez, C.A.
Dorokhov, A.E.
Druzhinin, V.P.
Eichmann, G.
Fael, M.
Fischer, C.S.
Gámiz, E.
Gelzer, Z.
Green, J.R.
Guellati-Khelifa, S.
Hatton, D.
Hermansson-Truedsson, N.
Holz, S.
Hörz, B.
Knecht, M.
Koponen, J.
Kronfeld, A.S.
Laiho, J.
Leupold, S.
Mackenzie, P.B.
Marciano, W.J.
McNeile, C.
Mohler, D.
Monnard, J.
Neil, E.T.
Nesterenko, A.V.
Ottnad, K.
Pauk, V.
Radzhabov, A.E.
de Rafael, E.
Raya, K.
Risch, A.
Rodríguez-Sánchez, A.
Roig, P.
San José, T.
Solodov, E.P.
Sugar, R.
Todyshev, K.Yu.
Vainshtein, A.
Vaquero Avilés-Casco, A.
Weil, E.
Wilhelm, J.
Williams, R.
Zhevlakov, A.S.
author_sort Aoyama, T.
collection CERN
description We review the present status of the Standard Model calculation of the anomalous magnetic moment of the muon. This is performed in a perturbative expansion in the fine-structure constant $\alpha$ and is broken down into pure QED, electroweak, and hadronic contributions. The pure QED contribution is by far the largest and has been evaluated up to and including $\mathcal{O}(\alpha^5)$ with negligible numerical uncertainty. The electroweak contribution is suppressed by $(m_\mu/M_W)^2$ and only shows up at the level of the seventh significant digit. It has been evaluated up to two loops and is known to better than one percent. Hadronic contributions are the most difficult to calculate and are responsible for almost all of the theoretical uncertainty. The leading hadronic contribution appears at $\mathcal{O}(\alpha^2)$ and is due to hadronic vacuum polarization, whereas at $\mathcal{O}(\alpha^3)$ the hadronic light-by-light scattering contribution appears. Given the low characteristic scale of this observable, these contributions have to be calculated with nonperturbative methods, in particular, dispersion relations and the lattice approach to QCD. The largest part of this review is dedicated to a detailed account of recent efforts to improve the calculation of these two contributions with either a data-driven, dispersive approach, or a first-principle, lattice-QCD approach. The final result reads $a_\mu^\text{SM}=116\,591\,810(43)\times 10^{-11}$ and is smaller than the Brookhaven measurement by 3.7$\sigma$. The experimental uncertainty will soon be reduced by up to a factor four by the new experiment currently running at Fermilab, and also by the future J-PARC experiment. This and the prospects to further reduce the theoretical uncertainty in the near future-which are also discussed here-make this quantity one of the most promising places to look for evidence of new physics.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2020
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spelling cern-27184302023-07-05T05:32:54Zdoi:10.1016/j.physrep.2020.07.006http://cds.cern.ch/record/2718430engAoyama, T.Asmussen, N.Benayoun, M.Bijnens, J.Blum, T.Bruno, M.Caprini, I.Carloni Calame, C.M.Cè, M.Colangelo, G.Curciarello, F.Czyż, H.Danilkin, I.Davier, M.Davies, C.T.H.Della Morte, M.Eidelman, S.I.El-Khadra, A.X.Gérardin, A.Giusti, D.Golterman, M.Gottlieb, StevenGülpers, V.Hagelstein, F.Hayakawa, M.Herdoíza, G.Hertzog, D.W.Hoecker, A.Hoferichter, M.Hoid, B.-L.Hudspith, R.J.Ignatov, F.Izubuchi, T.Jegerlehner, F.Jin, L.Keshavarzi, A.Kinoshita, T.Kubis, B.Kupich, A.Kupść, A.Laub, L.Lehner, C.Lellouch, L.Logashenko, I.Malaescu, B.Maltman, K.Marinković, M.K.Masjuan, P.Meyer, A.S.Meyer, H.B.Mibe, T.Miura, K.Müller, S.E.Nio, M.Nomura, D.Nyffeler, A.Pascalutsa, V.Passera, M.Perez del Rio, E.Peris, S.Portelli, A.Procura, M.Redmer, C.F.Roberts, B.L.Sánchez-Puertas, P.Serednyakov, S.Shwartz, B.Simula, S.Stöckinger, D.Stöckinger-Kim, H.Stoffer, P.Teubner, T.Van de Water, R.Vanderhaeghen, M.Venanzoni, G.von Hippel, G.Wittig, H.Zhang, Z.Achasov, M.N.Bashir, A.Cardoso, N.Chakraborty, B.Chao, E.-H.Charles, J.Crivellin, A.Deineka, O.Denig, A.DeTar, C.Dominguez, C.A.Dorokhov, A.E.Druzhinin, V.P.Eichmann, G.Fael, M.Fischer, C.S.Gámiz, E.Gelzer, Z.Green, J.R.Guellati-Khelifa, S.Hatton, D.Hermansson-Truedsson, N.Holz, S.Hörz, B.Knecht, M.Koponen, J.Kronfeld, A.S.Laiho, J.Leupold, S.Mackenzie, P.B.Marciano, W.J.McNeile, C.Mohler, D.Monnard, J.Neil, E.T.Nesterenko, A.V.Ottnad, K.Pauk, V.Radzhabov, A.E.de Rafael, E.Raya, K.Risch, A.Rodríguez-Sánchez, A.Roig, P.San José, T.Solodov, E.P.Sugar, R.Todyshev, K.Yu.Vainshtein, A.Vaquero Avilés-Casco, A.Weil, E.Wilhelm, J.Williams, R.Zhevlakov, A.S.The anomalous magnetic moment of the muon in the Standard ModelParticle Physics - Phenomenologynucl-thNuclear Physics - Theorynucl-exNuclear Physics - Experimenthep-latParticle Physics - Latticehep-exParticle Physics - Experimenthep-phWe review the present status of the Standard Model calculation of the anomalous magnetic moment of the muon. This is performed in a perturbative expansion in the fine-structure constant $\alpha$ and is broken down into pure QED, electroweak, and hadronic contributions. The pure QED contribution is by far the largest and has been evaluated up to and including $\mathcal{O}(\alpha^5)$ with negligible numerical uncertainty. The electroweak contribution is suppressed by $(m_\mu/M_W)^2$ and only shows up at the level of the seventh significant digit. It has been evaluated up to two loops and is known to better than one percent. Hadronic contributions are the most difficult to calculate and are responsible for almost all of the theoretical uncertainty. The leading hadronic contribution appears at $\mathcal{O}(\alpha^2)$ and is due to hadronic vacuum polarization, whereas at $\mathcal{O}(\alpha^3)$ the hadronic light-by-light scattering contribution appears. Given the low characteristic scale of this observable, these contributions have to be calculated with nonperturbative methods, in particular, dispersion relations and the lattice approach to QCD. The largest part of this review is dedicated to a detailed account of recent efforts to improve the calculation of these two contributions with either a data-driven, dispersive approach, or a first-principle, lattice-QCD approach. The final result reads $a_\mu^\text{SM}=116\,591\,810(43)\times 10^{-11}$ and is smaller than the Brookhaven measurement by 3.7$\sigma$. The experimental uncertainty will soon be reduced by up to a factor four by the new experiment currently running at Fermilab, and also by the future J-PARC experiment. This and the prospects to further reduce the theoretical uncertainty in the near future-which are also discussed here-make this quantity one of the most promising places to look for evidence of new physics.We review the present status of the Standard Model calculation of the anomalous magnetic moment of the muon. This is performed in a perturbative expansion in the fine-structure constant α and is broken down into pure QED, electroweak, and hadronic contributions. The pure QED contribution is by far the largest and has been evaluated up to and including O(α5) with negligible numerical uncertainty. The electroweak contribution is suppressed by (mμ∕MW)2 and only shows up at the level of the seventh significant digit. It has been evaluated up to two loops and is known to better than one percent. Hadronic contributions are the most difficult to calculate and are responsible for almost all of the theoretical uncertainty. The leading hadronic contribution appears at O(α2) and is due to hadronic vacuum polarization, whereas at O(α3) the hadronic light-by-light scattering contribution appears. Given the low characteristic scale of this observable, these contributions have to be calculated with nonperturbative methods, in particular, dispersion relations and the lattice approach to QCD. The largest part of this review is dedicated to a detailed account of recent efforts to improve the calculation of these two contributions with either a data-driven, dispersive approach, or a first-principle, lattice-QCD approach. The final result reads aμSM=116591810(43)×10−11 and is smaller than the Brookhaven measurement by 3.7 σ . The experimental uncertainty will soon be reduced by up to a factor four by the new experiment currently running at Fermilab, and also by the future J-PARC experiment. This and the prospects to further reduce the theoretical uncertainty in the near future – which are also discussed here – make this quantity one of the most promising places to look for evidence of new physics.We review the present status of the Standard Model calculation of the anomalous magnetic moment of the muon. This is performed in a perturbative expansion in the fine-structure constant $\alpha$ and is broken down into pure QED, electroweak, and hadronic contributions. The pure QED contribution is by far the largest and has been evaluated up to and including $\mathcal{O}(\alpha^5)$ with negligible numerical uncertainty. The electroweak contribution is suppressed by $(m_\mu/M_W)^2$ and only shows up at the level of the seventh significant digit. It has been evaluated up to two loops and is known to better than one percent. Hadronic contributions are the most difficult to calculate and are responsible for almost all of the theoretical uncertainty. The leading hadronic contribution appears at $\mathcal{O}(\alpha^2)$ and is due to hadronic vacuum polarization, whereas at $\mathcal{O}(\alpha^3)$ the hadronic light-by-light scattering contribution appears. Given the low characteristic scale of this observable, these contributions have to be calculated with nonperturbative methods, in particular, dispersion relations and the lattice approach to QCD. The largest part of this review is dedicated to a detailed account of recent efforts to improve the calculation of these two contributions with either a data-driven, dispersive approach, or a first-principle, lattice-QCD approach. The final result reads $a_\mu^\text{SM}=116\,591\,810(43)\times 10^{-11}$ and is smaller than the Brookhaven measurement by 3.7$\sigma$. The experimental uncertainty will soon be reduced by up to a factor four by the new experiment currently running at Fermilab, and also by the future J-PARC experiment. This and the prospects to further reduce the theoretical uncertainty in the near future-which are also discussed here-make this quantity one of the most promising places to look for evidence of new physics.arXiv:2006.04822FERMILAB-PUB-20-207-TINT-PUB-20-021KEK Preprint 2020-5, MITP/20-028KEK Preprint 2020-5, MITP/20-028CERN-TH-2020-075IFT-UAM/CSIC-20-74LMU-ASC 18/20LTH 1234, LU TP 20-20LTH 1234, LU TP 20-20MAN/HEP/2020/003PSI-PR-20-06UWThPh 2020-14ZU-TH 18/20oai:cds.cern.ch:27184302020-06-08
spellingShingle Particle Physics - Phenomenology
nucl-th
Nuclear Physics - Theory
nucl-ex
Nuclear Physics - Experiment
hep-lat
Particle Physics - Lattice
hep-ex
Particle Physics - Experiment
hep-ph
Aoyama, T.
Asmussen, N.
Benayoun, M.
Bijnens, J.
Blum, T.
Bruno, M.
Caprini, I.
Carloni Calame, C.M.
Cè, M.
Colangelo, G.
Curciarello, F.
Czyż, H.
Danilkin, I.
Davier, M.
Davies, C.T.H.
Della Morte, M.
Eidelman, S.I.
El-Khadra, A.X.
Gérardin, A.
Giusti, D.
Golterman, M.
Gottlieb, Steven
Gülpers, V.
Hagelstein, F.
Hayakawa, M.
Herdoíza, G.
Hertzog, D.W.
Hoecker, A.
Hoferichter, M.
Hoid, B.-L.
Hudspith, R.J.
Ignatov, F.
Izubuchi, T.
Jegerlehner, F.
Jin, L.
Keshavarzi, A.
Kinoshita, T.
Kubis, B.
Kupich, A.
Kupść, A.
Laub, L.
Lehner, C.
Lellouch, L.
Logashenko, I.
Malaescu, B.
Maltman, K.
Marinković, M.K.
Masjuan, P.
Meyer, A.S.
Meyer, H.B.
Mibe, T.
Miura, K.
Müller, S.E.
Nio, M.
Nomura, D.
Nyffeler, A.
Pascalutsa, V.
Passera, M.
Perez del Rio, E.
Peris, S.
Portelli, A.
Procura, M.
Redmer, C.F.
Roberts, B.L.
Sánchez-Puertas, P.
Serednyakov, S.
Shwartz, B.
Simula, S.
Stöckinger, D.
Stöckinger-Kim, H.
Stoffer, P.
Teubner, T.
Van de Water, R.
Vanderhaeghen, M.
Venanzoni, G.
von Hippel, G.
Wittig, H.
Zhang, Z.
Achasov, M.N.
Bashir, A.
Cardoso, N.
Chakraborty, B.
Chao, E.-H.
Charles, J.
Crivellin, A.
Deineka, O.
Denig, A.
DeTar, C.
Dominguez, C.A.
Dorokhov, A.E.
Druzhinin, V.P.
Eichmann, G.
Fael, M.
Fischer, C.S.
Gámiz, E.
Gelzer, Z.
Green, J.R.
Guellati-Khelifa, S.
Hatton, D.
Hermansson-Truedsson, N.
Holz, S.
Hörz, B.
Knecht, M.
Koponen, J.
Kronfeld, A.S.
Laiho, J.
Leupold, S.
Mackenzie, P.B.
Marciano, W.J.
McNeile, C.
Mohler, D.
Monnard, J.
Neil, E.T.
Nesterenko, A.V.
Ottnad, K.
Pauk, V.
Radzhabov, A.E.
de Rafael, E.
Raya, K.
Risch, A.
Rodríguez-Sánchez, A.
Roig, P.
San José, T.
Solodov, E.P.
Sugar, R.
Todyshev, K.Yu.
Vainshtein, A.
Vaquero Avilés-Casco, A.
Weil, E.
Wilhelm, J.
Williams, R.
Zhevlakov, A.S.
The anomalous magnetic moment of the muon in the Standard Model
title The anomalous magnetic moment of the muon in the Standard Model
title_full The anomalous magnetic moment of the muon in the Standard Model
title_fullStr The anomalous magnetic moment of the muon in the Standard Model
title_full_unstemmed The anomalous magnetic moment of the muon in the Standard Model
title_short The anomalous magnetic moment of the muon in the Standard Model
title_sort anomalous magnetic moment of the muon in the standard model
topic Particle Physics - Phenomenology
nucl-th
Nuclear Physics - Theory
nucl-ex
Nuclear Physics - Experiment
hep-lat
Particle Physics - Lattice
hep-ex
Particle Physics - Experiment
hep-ph
url https://dx.doi.org/10.1016/j.physrep.2020.07.006
http://cds.cern.ch/record/2718430
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AT izubuchit theanomalousmagneticmomentofthemuoninthestandardmodel
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AT jinl theanomalousmagneticmomentofthemuoninthestandardmodel
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AT maltmank theanomalousmagneticmomentofthemuoninthestandardmodel
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AT mibet theanomalousmagneticmomentofthemuoninthestandardmodel
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AT shwartzb theanomalousmagneticmomentofthemuoninthestandardmodel
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AT dominguezca theanomalousmagneticmomentofthemuoninthestandardmodel
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AT eichmanng theanomalousmagneticmomentofthemuoninthestandardmodel
AT faelm theanomalousmagneticmomentofthemuoninthestandardmodel
AT fischercs theanomalousmagneticmomentofthemuoninthestandardmodel
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AT horzb theanomalousmagneticmomentofthemuoninthestandardmodel
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AT vainshteina theanomalousmagneticmomentofthemuoninthestandardmodel
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AT carlonicalamecm anomalousmagneticmomentofthemuoninthestandardmodel
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AT davierm anomalousmagneticmomentofthemuoninthestandardmodel
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AT dellamortem anomalousmagneticmomentofthemuoninthestandardmodel
AT eidelmansi anomalousmagneticmomentofthemuoninthestandardmodel
AT elkhadraax anomalousmagneticmomentofthemuoninthestandardmodel
AT gerardina anomalousmagneticmomentofthemuoninthestandardmodel
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AT hoeckera anomalousmagneticmomentofthemuoninthestandardmodel
AT hoferichterm anomalousmagneticmomentofthemuoninthestandardmodel
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AT hudspithrj anomalousmagneticmomentofthemuoninthestandardmodel
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AT izubuchit anomalousmagneticmomentofthemuoninthestandardmodel
AT jegerlehnerf anomalousmagneticmomentofthemuoninthestandardmodel
AT jinl anomalousmagneticmomentofthemuoninthestandardmodel
AT keshavarzia anomalousmagneticmomentofthemuoninthestandardmodel
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AT kubisb anomalousmagneticmomentofthemuoninthestandardmodel
AT kupicha anomalousmagneticmomentofthemuoninthestandardmodel
AT kupsca anomalousmagneticmomentofthemuoninthestandardmodel
AT laubl anomalousmagneticmomentofthemuoninthestandardmodel
AT lehnerc anomalousmagneticmomentofthemuoninthestandardmodel
AT lellouchl anomalousmagneticmomentofthemuoninthestandardmodel
AT logashenkoi anomalousmagneticmomentofthemuoninthestandardmodel
AT malaescub anomalousmagneticmomentofthemuoninthestandardmodel
AT maltmank anomalousmagneticmomentofthemuoninthestandardmodel
AT marinkovicmk anomalousmagneticmomentofthemuoninthestandardmodel
AT masjuanp anomalousmagneticmomentofthemuoninthestandardmodel
AT meyeras anomalousmagneticmomentofthemuoninthestandardmodel
AT meyerhb anomalousmagneticmomentofthemuoninthestandardmodel
AT mibet anomalousmagneticmomentofthemuoninthestandardmodel
AT miurak anomalousmagneticmomentofthemuoninthestandardmodel
AT mullerse anomalousmagneticmomentofthemuoninthestandardmodel
AT niom anomalousmagneticmomentofthemuoninthestandardmodel
AT nomurad anomalousmagneticmomentofthemuoninthestandardmodel
AT nyffelera anomalousmagneticmomentofthemuoninthestandardmodel
AT pascalutsav anomalousmagneticmomentofthemuoninthestandardmodel
AT passeram anomalousmagneticmomentofthemuoninthestandardmodel
AT perezdelrioe anomalousmagneticmomentofthemuoninthestandardmodel
AT periss anomalousmagneticmomentofthemuoninthestandardmodel
AT portellia anomalousmagneticmomentofthemuoninthestandardmodel
AT procuram anomalousmagneticmomentofthemuoninthestandardmodel
AT redmercf anomalousmagneticmomentofthemuoninthestandardmodel
AT robertsbl anomalousmagneticmomentofthemuoninthestandardmodel
AT sanchezpuertasp anomalousmagneticmomentofthemuoninthestandardmodel
AT serednyakovs anomalousmagneticmomentofthemuoninthestandardmodel
AT shwartzb anomalousmagneticmomentofthemuoninthestandardmodel
AT simulas anomalousmagneticmomentofthemuoninthestandardmodel
AT stockingerd anomalousmagneticmomentofthemuoninthestandardmodel
AT stockingerkimh anomalousmagneticmomentofthemuoninthestandardmodel
AT stofferp anomalousmagneticmomentofthemuoninthestandardmodel
AT teubnert anomalousmagneticmomentofthemuoninthestandardmodel
AT vandewaterr anomalousmagneticmomentofthemuoninthestandardmodel
AT vanderhaeghenm anomalousmagneticmomentofthemuoninthestandardmodel
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AT vonhippelg anomalousmagneticmomentofthemuoninthestandardmodel
AT wittigh anomalousmagneticmomentofthemuoninthestandardmodel
AT zhangz anomalousmagneticmomentofthemuoninthestandardmodel
AT achasovmn anomalousmagneticmomentofthemuoninthestandardmodel
AT bashira anomalousmagneticmomentofthemuoninthestandardmodel
AT cardoson anomalousmagneticmomentofthemuoninthestandardmodel
AT chakrabortyb anomalousmagneticmomentofthemuoninthestandardmodel
AT chaoeh anomalousmagneticmomentofthemuoninthestandardmodel
AT charlesj anomalousmagneticmomentofthemuoninthestandardmodel
AT crivellina anomalousmagneticmomentofthemuoninthestandardmodel
AT deinekao anomalousmagneticmomentofthemuoninthestandardmodel
AT deniga anomalousmagneticmomentofthemuoninthestandardmodel
AT detarc anomalousmagneticmomentofthemuoninthestandardmodel
AT dominguezca anomalousmagneticmomentofthemuoninthestandardmodel
AT dorokhovae anomalousmagneticmomentofthemuoninthestandardmodel
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AT eichmanng anomalousmagneticmomentofthemuoninthestandardmodel
AT faelm anomalousmagneticmomentofthemuoninthestandardmodel
AT fischercs anomalousmagneticmomentofthemuoninthestandardmodel
AT gamize anomalousmagneticmomentofthemuoninthestandardmodel
AT gelzerz anomalousmagneticmomentofthemuoninthestandardmodel
AT greenjr anomalousmagneticmomentofthemuoninthestandardmodel
AT guellatikhelifas anomalousmagneticmomentofthemuoninthestandardmodel
AT hattond anomalousmagneticmomentofthemuoninthestandardmodel
AT hermanssontruedssonn anomalousmagneticmomentofthemuoninthestandardmodel
AT holzs anomalousmagneticmomentofthemuoninthestandardmodel
AT horzb anomalousmagneticmomentofthemuoninthestandardmodel
AT knechtm anomalousmagneticmomentofthemuoninthestandardmodel
AT koponenj anomalousmagneticmomentofthemuoninthestandardmodel
AT kronfeldas anomalousmagneticmomentofthemuoninthestandardmodel
AT laihoj anomalousmagneticmomentofthemuoninthestandardmodel
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AT mackenziepb anomalousmagneticmomentofthemuoninthestandardmodel
AT marcianowj anomalousmagneticmomentofthemuoninthestandardmodel
AT mcneilec anomalousmagneticmomentofthemuoninthestandardmodel
AT mohlerd anomalousmagneticmomentofthemuoninthestandardmodel
AT monnardj anomalousmagneticmomentofthemuoninthestandardmodel
AT neilet anomalousmagneticmomentofthemuoninthestandardmodel
AT nesterenkoav anomalousmagneticmomentofthemuoninthestandardmodel
AT ottnadk anomalousmagneticmomentofthemuoninthestandardmodel
AT paukv anomalousmagneticmomentofthemuoninthestandardmodel
AT radzhabovae anomalousmagneticmomentofthemuoninthestandardmodel
AT derafaele anomalousmagneticmomentofthemuoninthestandardmodel
AT rayak anomalousmagneticmomentofthemuoninthestandardmodel
AT rischa anomalousmagneticmomentofthemuoninthestandardmodel
AT rodriguezsancheza anomalousmagneticmomentofthemuoninthestandardmodel
AT roigp anomalousmagneticmomentofthemuoninthestandardmodel
AT sanjoset anomalousmagneticmomentofthemuoninthestandardmodel
AT solodovep anomalousmagneticmomentofthemuoninthestandardmodel
AT sugarr anomalousmagneticmomentofthemuoninthestandardmodel
AT todyshevkyu anomalousmagneticmomentofthemuoninthestandardmodel
AT vainshteina anomalousmagneticmomentofthemuoninthestandardmodel
AT vaqueroavilescascoa anomalousmagneticmomentofthemuoninthestandardmodel
AT weile anomalousmagneticmomentofthemuoninthestandardmodel
AT wilhelmj anomalousmagneticmomentofthemuoninthestandardmodel
AT williamsr anomalousmagneticmomentofthemuoninthestandardmodel
AT zhevlakovas anomalousmagneticmomentofthemuoninthestandardmodel

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