The anomalous magnetic moment of the muon is one of the most precisely measured quantities in experimental particle physics. Its latest measurement at Brookhaven National Laboratory deviates from the Standard Model expectation by approximately 3.5 standard deviations. The goal of the new experiment, E989, now under construction at Fermilab, is a fourfold improvement in precision. Here, we discuss the details of the future measurement and its current status.

6.
1.
G. W.
Bennett
 et al, “(
Muon g-2 collaboration
),”
Phys. Rev. D
73
,
072003
(
2006
).
2.
T.
Blum
,
A.
Denig
,
I.
Logashenko
,
E.
de Rafael
,
B.
Lee Roberts
,
T.
Teubner
, and
G.
Venanzoni
, e-print arXiv:1311.2198 [hep-ph].
3.
M.
Davier
,
A.
Hoecker
,
B.
Malaescu
, and
Z.
Zhang
,
Eur. Phys. J. C
71
,
1515
(
2011
);
M.
Davier
,
A.
Hoecker
,
B.
Malaescu
, and
Z.
Zhang
,
Erratum
72
,
1874
(
2012
).
4.
K.
Hagiwara
,
R.
Liao
,
A. D.
Martin
,
D.
Nomura
, and
T.
Teubner
,
J. Phys. G: Nucl. Part. Phys.
38
,
085003
(
2011
).
5.
J.
Grange
 et al, (Muon g-2 collaboration), e-print arxiv:1501.06858 [physics.ins-det].
6.
J.
Bailey
 et al,
Nucl. Phys. B
150
,
1
(
1979
).
7.
X.
Fei
,
V. W.
Hughes
, and
R.
Prigl
,
Nucl. Instrum. Methods Phys. Res., Sect. A
394
,
349
356
(
1997
).
8.
P. J.
Mohr
,
B. N.
Taylor
, and
D. B.
Newell
,
Rev. Mod. Phys.
84
(
4
),
1527
(
2012
).
9.
W.
Liu
 et al,
Phys. Rev. Lett.
82
,
711
(
1999
).
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