Neutral kaon mixing beyond the Standard Model with n f = 2 + 1 chiral fermions. Part 2: non perturbative renormalisation of the ΔF = 2 four-quark operators

Boyle, Peter A.; Garrón, Nicolas; Hudspith, Renwick J.; Lehner, Christoph; Lytle, Andrew

doi:10.1007/jhep10(2017)054

Cited by 35 publications

(67 citation statements)

References 45 publications

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“…We use the non-perturbative Rome-Southampton method [17] with non-exceptional kinematics (RI-SMOM) [18]. The RI-SMOM scheme for the SM four-quark operator is described in [19], and the extension to the full SUSY basis in [20]. The renormalised matrix elements can be expressed as,…”

Section: Non-perturbative Renormalizationmentioning

confidence: 99%

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BSM Kaon Mixing at the Physical Point

et al. 2018

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Section: Non-perturbative Renormalizationmentioning

confidence: 99%

“…Details on the renormalisation procedure and the definition of these projectors can be found in [20].…”

Section: Non-perturbative Renormalizationmentioning

confidence: 99%

BSM Kaon Mixing at the Physical Point

et al. 2018

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“…Therefore, the γ µ and / q-projectors defined above (and in [13]) lead to independent renormalisation schemes.…”

Section: Non Diagonal Fierz Identities and / Q Projectorsmentioning

confidence: 98%

“…For the operators Q 3,4 = S S ∓ PP, where no γ µ structure is present, the trick is to use a Fierz identity [13] …”

Section: Choice Of Projectorsmentioning

confidence: 99%

“…The latter are also compatible with SWME [5,6] where the renormalisation is performed at 1-loop in perturbation theory. In [13], we studied in details the RI-MOM and SMOM schemes, and pointed out potential issues with the RI-MOM procedure with exceptional kinematics. Using non-diagonal Fierz transformation, I show here that the SMOM schemes called (γ µ , γ µ ) and (/ q, / q) are mathematically different.…”

Section: Introductionmentioning

confidence: 99%

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Fierz transformations and renormalization schemes for fourquark operators

Garrón

2018

EPJ Web Conf.

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BSM hadronic matrix elements for ε′/ε and K → ππ decays in the Dual QCD approach

Aebischer

Buras

Gérard

2019

J. High Energ. Phys.

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We calculate for the first time all four-quark hadronic matrix elements of local operators possibly contributing to K → ππ decays and in particular to the ratio ε /ε beyond the Standard Model (BSM). To this end we use the Dual QCD (DQCD) approach. In addition to 7 new mirror operators obtained from the SM ones by flipping the chirality, we count 13 BSM four-quark operators of a given chirality linearly independent of each other and of the aforesaid 14 operators for which hadronic matrix elements are already known. We present results in two bases for all these operators, one termed DQCD basis useful for the calculation of the hadronic matrix elements in the DQCD approach and the other called SD basis suited to the short distance renormalization group evolution above the 1 GeV scale. We demonstrate that the pattern of long distance evolution (meson evolution) matches the one of short distance evolution (quark-gluon evolution), a property which to our knowledge cannot be presently achieved in any other analytical framework. The highlights of our paper are chirally enhanced matrix elements of tensor-tensor and scalar-scalar BSM operators. They could thereby explain the emerging ε /ε anomaly which is strongly indicated within DQCD with some support from lattice QCD. On the other hand we do not expect the BSM operators to be relevant for the ∆I = 1/2 rule.

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Neutral kaon mixing beyond the Standard Model with n f = 2 + 1 chiral fermions. Part 2: non perturbative renormalisation of the ΔF = 2 four-quark operators

Cited by 35 publications

References 45 publications

BSM Kaon Mixing at the Physical Point

BSM Kaon Mixing at the Physical Point

Fierz transformations and renormalization schemes for fourquark operators

BSM hadronic matrix elements for ε′/ε and K → ππ decays in the Dual QCD approach

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