Four-flavour leading-order hadronic contribution to the muon anomalous magnetic moment

Burger, Florian; Feng, Xu; Hotzel, Grit; Jansen, Karl; Petschlies, Marcus; Renner, Dru B.

doi:10.1007/jhep02(2014)099

Cited by 71 publications

(118 citation statements)

References 56 publications

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“…This agrees well with the only earlier u/d/s/c lattice QCD result, 674(28) × 10 −10 [13], but has errors from the lattice calculation reduced by a factor of four. It also agrees with earlier non-lattice results using experimental data, ranging from (×10 10 ): 694.9(4.3) [5] to 681.9(3.2) [7].…”

Section: Discussion/conclusionsupporting

confidence: 89%

“…As discussed in [13], most of the light-quark mass dependence of a µ can be removed by rescaling the vacuum polarization with appropriate powers of m latt ρ /m expt ρ . Here we show that rescaled results from large masses are consistent with the corrected results from physical masses, giving us confidence in both types of result.…”

Section: Lattice Qcd Calculationmentioning

confidence: 99%

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Hadronic vacuum polarization contribution to aμ from full lattice QCD

Chakraborty¹,

Davies²,

Oliveira³

et al. 2017

Phys. Rev. D

222

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We determine the contribution to the anomalous magnetic moment of the muon from the α 2 QED hadronic vacuum polarization diagram using full lattice QCD and including u/d quarks with physical masses for the first time. We use gluon field configurations that include u, d, s and c quarks in the sea at multiple values of the lattice spacing, multiple u/d masses and multiple volumes that allow us to include an analysis of finite-volume effects. We obtain a result for a HVP,LO µ of 667(6)(12) × 10 −10 , where the first error is from the lattice calculation and the second includes systematic errors from missing QED and isospin-breaking effects and from quark-line disconnected diagrams. Our result implies a discrepancy between the experimental determination of aµ and the Standard Model of 3σ.

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Section: Discussion/conclusionsupporting

confidence: 89%

Section: Lattice Qcd Calculationmentioning

confidence: 99%

Hadronic vacuum polarization contribution to aμ from full lattice QCD

Chakraborty¹,

Davies²,

Oliveira³

et al. 2017

Phys. Rev. D

222

View full text Add to dashboard Cite

show abstract

“…This concerns both a hvp µ , studied in [28][29][30][31][32][33][34][35][36][37][38][39][40], as well as a hlbl µ [41][42][43][44][45][46][47][48][49]. Lattice calculations of a hvp µ proceed by evaluating a convolution integral over Euclidean momenta Q 2 [28,50].…”

Section: Jhep10(2017)020mentioning

confidence: 99%

“…We add that our results are in good agreement with those of refs. [33,39] which were performed for N f = 2+1+1 flavours.…”

Section: Jhep10(2017)020mentioning

confidence: 99%

The hadronic vacuum polarization contribution to the muon g − 2 from lattice QCD

Morte

Francis

Gülpers

et al. 2017

J. High Energ. Phys.

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We present a calculation of the hadronic vacuum polarization contribution to the muon anomalous magnetic moment, a hvp µ , in lattice QCD employing dynamical up and down quarks. We focus on controlling the infrared regime of the vacuum polarization function. To this end we employ several complementary approaches, including Padé fits, time moments and the time-momentum representation. We correct our results for finitevolume effects by combining the Gounaris-Sakurai parameterization of the timelike pion form factor with the Lüscher formalism. On a subset of our ensembles we have derived an upper bound on the magnitude of quark-disconnected diagrams and found that they decrease the estimate for a hvp JHEP10 (2017)020 10 −10 , where the first error is statistical, and the second denotes the combined systematic uncertainty. Based on our findings we discuss the prospects for determining a hvp µ with sub-percent precision.

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“…As upcoming experiments, Fermilab E989 and J-PARC E34, plan to reduce the experimental uncertainty down to 0.14 ppm, theoretical calculations of non-perturbative hadronic contributions must be refined in the short term. LQCD is expected to contribute to improving the theoretical prediction of the standard model, and several recent efforts have been directed at obtaining the hadronic vacuum-polarization and hadronic light-by-light contributions to the muon g − 2 [68][69][70][71][72][73][74][75][76][77][78]. Theoretical challenges facing these calculations have been identified and will be addressed during the next few years.…”

Section: Anomalous Magnetic Moment Of the Muonmentioning

confidence: 99%

Finite-volume electromagnetic corrections to the masses of mesons, baryons, and nuclei

2014

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Now that Lattice QCD calculations are beginning to include QED, it is important to better understand how hadronic properties are modified by finite-volume QED effects. They are known to exhibit power-law scaling with volume, in contrast to the exponential behavior of finite-volume strong interaction effects. We use non-relativistic effective field theories describing the low-momentum behavior of hadrons to determine the finite-volume QED corrections to the masses of mesons, baryons and nuclei out to O 1/L 4 in a volume expansion, where L is the spatial extent of the cubic volume. This generalizes the previously determined expansion for mesons, and extends it by two orders in 1/L to include contributions from the charge radius, magnetic moment and polarizabilities of the hadron. We make an observation about direct calculations of the muon g − 2 in a finite volume.

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Four-flavour leading-order hadronic contribution to the muon anomalous magnetic moment

Cited by 71 publications

References 56 publications

Hadronic vacuum polarization contribution to aμ from full lattice QCD

Hadronic vacuum polarization contribution to aμ from full lattice QCD

The hadronic vacuum polarization contribution to the muon g − 2 from lattice QCD

Finite-volume electromagnetic corrections to the masses of mesons, baryons, and nuclei

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