Julia Kettle scite author profile

We present results from a calculation of beyond the standard model (BSM) kaon mixing including data with physical light quark masses. We simulate N f = 2 + 1 QCD with Iwasaki gauge and domain wall fermion action on 8 ensembles, spanning 3 lattice spacings and pion masses from the physical value up to 430MeV. The ratio of the BSM to standard model (SM) matrix elements are extracted from the correlation functions and renormalised using the RI-SMOM Rome-Southampton method with non-exceptional kinematics. The results at the physical point continuum limit are found by performing a simultaneous continuum chiral extrapolation. In this work we gain consistency with our previous results and achieve a reduction in both the statistical and systematic error.

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BSM Kaon mixing at the Physical Point

Boyle¹,

Garrón

Kettle³

et al. 2016

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The RBC and UKQCD collaborationsWe present new preliminary results for bag parameters and ratios of the BSM kaon mixing operators measured at the physical point. The results are obtained from simulations of domain wall fermion QCD with 2+1 flavours with an Iwasaki gauge, and now include pion and kaon masses very close to the physical point. We compare these results to our collaboration's previous results obtained from heavier simulated quarks.

show abstract

BSM Kaon Mixing at the Physical Point

Boyle¹,

Garrón²,

Kettle³

et al. 2017

Preprint

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Julia Kettle

BSM Kaon Mixing at the Physical Point

Beyond the standard model kaon mixing with physical masses.

Beyond the Standard Model Kaon Mixing with Physical Masses

BSM Kaon mixing at the Physical Point

BSM Kaon Mixing at the Physical Point

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