Differential branching fractions and isospin asymmetries of B → K (*) μ + μ − decays

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doi:10.1007/jhep06(2014)133

Cited by 317 publications

(285 citation statements)

References 37 publications

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“…• Angular observables in B 0 → K * 0 μ + μ − measured by CDF [45], LHCb [31], ATLAS* [37], and CMS* [38,46,47], • B 0,± → K * 0,± μ + μ − branching ratios by LHCb* [15,48], CMS [46,47], and CDF [45], Items marked with an asterisk have been updated since our previous global fit [32]. Concerning B 0 → K * 0 μ + μ − , both LHCb and ATLAS have performed measurements of CPaveraged angular observables S i as well as of the closely related "optimized" observables P i .…”

Section: Effective Hamiltonian and Observablesmentioning

confidence: 99%

“…Further measurements have shown additional tensions, e.g. branching ratio measurements in B → K μ + μ − and B s → φμ + μ − [15,16], as well as, most notably, a hint for lepton flavour nonuniversality in B + → K + + − decays [17]. While progress has also been made on the theory side, most notably improved B → K * form factors from lattice QCD (LQCD) [18,19] and light-cone sum rules (LCSR) [20], the "anomaly" has also led to a renewed scrutiny of theoretical uncertainties due to form factors [21][22][23] as well as non-factorizable hadronic effects [24][25][26] (cf.…”

Section: Introductionmentioning

confidence: 97%

See 1 more Smart Citation

Status of the $$B\rightarrow K^*\mu ^+\mu ^-$$ B → K ∗ μ +

Altmannshofer¹,

Niehoff²,

Stangl³

et al. 2017

Eur. Phys. J. C

131

115

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Motivated by recent results by the ATLAS and CMS collaborations on the angular distribution of the B → K * μ + μ − decay, we perform a state-of-the-art analysis of rare B meson decays based on the b → sμμ transition. Using standard estimates of hadronic uncertainties, we confirm the presence of a sizeable discrepancy between data and SM predictions. We do not find evidence for a q 2 or helicity dependence of the discrepancy. The data can be consistently described by new physics in the form of a four-fermion contact interaction (sγ α P L b)(μγ α μ). Assuming that the new physics affects decays with muons but not with electrons, we make predictions for a variety of theoretically clean observables sensitive to violation of lepton flavour universality.

show abstract

Section: Effective Hamiltonian and Observablesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

Status of the $$B\rightarrow K^*\mu ^+\mu ^-$$ B → K ∗ μ +

Altmannshofer¹,

Niehoff²,

Stangl³

et al. 2017

Eur. Phys. J. C

131

115

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show abstract

“…The LHCb Collaboration and other experiments have reported a number of anomalies in semileptonic B decays, including apparent violations of μ-e universality in B → K ( * ) + − decays [1][2][3][4], and apparent deviations from the Standard Model (SM) predictions for the P 5 angular variable in B → K * + − decay [5][6][7][8][9] and the m μ + μ − distribution in B s → φμ + μ − decay [10,11]. These anomalies have reached a high level of statistical significance.…”

Section: Introductionmentioning

confidence: 99%

Anomaly-free models for flavour anomalies

2018

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We explore the constraints imposed by the cancellation of triangle anomalies on models in which the flavour anomalies reported by LHCb and other experiments are due to an extra U(1) gauge boson Z . We assume universal and rational U(1) charges for the first two generations of lefthanded quarks and of right-handed up-type quarks but allow different charges for their third-generation counterparts. If the right-handed charges vanish, cancellation of the triangle anomalies requires all the quark U(1) charges to vanish, if there are either no exotic fermions or there is only one Standard Model singlet dark matter (DM) fermion. There are non-trivial anomaly-free models with more than one such 'dark' fermion, or with a single DM fermion if right-handed up-type quarks have non-zero U(1) charges. In some of the latter models the U(1) couplings of the first-and secondgeneration quarks all vanish, weakening the LHC Z constraint, and in some other models the DM particle has purely axial couplings, weakening the direct DM scattering constraint. We also consider models in which anomalies are cancelled via extra vector-like leptons, showing how the prospective LHC Z constraint may be weakened because the Z → μ + μ − branching ratio is suppressed relative to other decay modes.

show abstract

“…LHCb also measured the B → Kµ + µ − branching ratio in this q 2 -range [7]. The updated result, based on its full Run I dataset of 3 fb −1 , is [8] B(B + → K + µ + µ − ) [1,6] = (1.19 ± 0.03 ± 0.06) × 10 −7 .…”

mentioning

confidence: 99%

“…where we used B(B + → K + µ + µ − ) = (4.29 ± 0.22) × 10 −7 for the branching ratio integrated over q 2 [8]. The current limit, B(B + → K + µ ± e ∓ ) < 9.1 × 10 −8 [32], gives the weak bound…”

mentioning

confidence: 99%

Lepton Flavor Violation inBDecays?

2015

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The LHCb Collaboration's measurement of R K = B(B + → K + µ + µ − )/B(B + → K + e + e − ) lies 2.6σ below the Standard Model prediction. Several groups suggest this deficit to result from new lepton non-universal interactions of muons. But non-universal leptonic interactions imply lepton flavor violation in B-decays at rates much larger than are expected in the Standard Model. A simple model shows that these rates could lie just below current limits. An interesting consequence of our model, that B(75, is compatible with recent measurements of these rates. We stress the importance of searches for lepton flavor violations, especially for B → Kµe, Kµτ and B s → µe,

show abstract

Differential branching fractions and isospin asymmetries of B → K (*) μ + μ − decays

Cited by 317 publications

References 37 publications

Status of the $$B\rightarrow K^*\mu ^+\mu ^-$$ B → K ∗ μ +

Status of the $$B\rightarrow K^*\mu ^+\mu ^-$$ B → K ∗ μ +

Anomaly-free models for flavour anomalies

Lepton Flavor Violation inBDecays?

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