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Lattice calculation of the short and intermediate time-distance hadronic vacuum polarization contributions to the muon magnetic moment using twisted-mass fermions

Authors :
Alexandrou, C.
Bacchio, S.
Dimopoulos, P.
Finkenrath, J.
Frezzotti, R.
Gagliardi, G.
Garofalo, M.
Hadjiyiannakou, K.
Kostrzewa, B.
Jansen, K.
Lubicz, V.
Petschlies, M.
Sanfilippo, F.
Simula, S.
Urbach, C.
Wenger, U.
Alexandrou, C.
Bacchio, S.
Dimopoulos, P.
Finkenrath, J.
Frezzotti, R.
Gagliardi, G.
Garofalo, M.
Hadjiyiannakou, K.
Kostrzewa, B.
Jansen, K.
Lubicz, V.
Petschlies, M.
Sanfilippo, F.
Simula, S.
Urbach, C.
Wenger, U.
Publication Year :
2022

Abstract

We present a lattice determination of the leading-order hadronic vacuum polarization (HVP) contribution to the muon anomalous magnetic moment, $a_{\mu}^{\rm HVP}$, in the so-called short and intermediate time-distance windows, $a_{\mu}^{\rm SD}$ and $a_{\mu}^{\rm W}$, defined by the RBC/UKQCD Collaboration [1]. We employ gauge ensembles produced by the Extended Twisted Mass Collaboration (ETMC) with $N_f = 2 + 1 + 1$ flavors of Wilson-clover twisted-mass quarks with masses of all the dynamical quark flavors tuned close to their physical values. The simulations are carried out at three values of the lattice spacing equal to $\simeq 0.057, 0.068$ and $0.080$ fm with spatial lattice sizes up to $L \simeq 7.6$~fm. For the short distance window we obtain $a_\mu^{\rm SD}({\rm ETMC}) = 69.27\,(34) \cdot 10^{-10}$, which is consistent with the recent dispersive value of $a_\mu^{\rm SD}(e^+ e^-) = 68.4\,(5) \cdot 10^{-10}$ [2]. In the case of the intermediate window we get the value $a_\mu^{\rm W}({\rm ETMC}) = 236.3\,(1.3) \cdot 10^{-10}$, which is consistent with the result $a_\mu^{\rm W}({\rm BMW}) = 236.7\,(1.4) \cdot 10^{-10}$ [3] by the BMW collaboration as well as with the recent determination by the CLS/Mainz group of $a_\mu^{\rm W}({\rm CLS}) = 237.30\,(1.46) \cdot 10^{-10}$ [4]. However, it is larger than the dispersive result of $a_\mu^{\rm W}(e^+ e^-) = 229.4\,(1.4) \cdot 10^{-10}$ [2] by approximately $3.6$ standard deviations. The tension increases to approximately $4.5$ standard deviations if we average our ETMC result with those by BMW and CLS/Mainz. Our accurate lattice results in the short and intermediate windows point to a possible deviation of the $e^+ e^-$ cross section data with respect to Standard Model predictions in the low and intermediate energy regions, but not in the high energy region.<br />Comment: 78 pages, 22 figures, 14 tables. Analysis improved with more data and fits, presentation reorganized, more material in appendices, fixed typos

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1359229870
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1103.PhysRevD.107.074506