Tuning of QCD+QED simulations with C boundary conditions
Abstract
We give an update on the ongoing effort of the RC collaboration to generate fully dynamical QCD+QED ensembles with C boundary conditions using the openQ code. The simulations were tuned to the U-symmetric point (md = ms) with pions at mπ ≈ 400 MeV. The splitting of the light mesons is used as one of three tuning observables and fixed to mK0 - mK ≈ 5 MeV and mK0 - mK ≈ 25 MeV on ensembles with renormalized electromagnetic coupling αR ≈ αphys and αR ≈ 5.5αphys respectively. The tuning of the three independent quark masses to the desired lines of constant physics is particularly challenging. We will define the chosen hadronic renormalization scheme, and we will present a tuning strategy based on a combination of mass reweighting and linear interpolation to explore the parameter space. We will comment on finite-volume effects comparing meson masses on two different volumes with mπ L ≈ 3.2 and mπ L ≈ 5.1. We will also provide some technical details on our updated strategy to calculate the sign of the fermionic Pfaffian, which arises in presence of C boundary conditions in place of the standard fermionic determinant. More technical details on the generation of the configurations can be found in J. L\"ucke's proceedings
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