Renormalized quark masses using gradient flow | CU Experts

; We propose a new and simple method for determining the renormalized quark masses from lattice simulations. Renormalized quark masses are an important input to many phenomenological applications, including searching and modeling physics beyond the Standard Model. The nonperturbative renormalization is performed using gradient flow combined with the short-flow-time expansion that is improved by renormalization group (RG) running to match to the; ; ; MS; ¯; ; ; scheme. Implementing the RG running perturbatively, we demonstrate this method works reliably at least up to the charm-quark mass and exhibits an easily attainable “windowing condition.” Using RBC/UKQCD’s (; ; ; 2; +; 1; ; ; )-flavor Shamir domain-wall fermion ensembles with Iwasaki gauge action, we find; ; ; ; ; m; ; ; s; ; ; ; ; MS; ; ; ¯; ; ; ; ; (; μ; =; 2; ; ; GeV; ); =; 89; (; 3; ); ; ; MeV; ; ; and; ; ; ; ; m; ; ; c; ; ; ; ; MS; ; ; ¯; ; ; ; ; (; μ; =; ; 3; ; ; GeV; ); =; 972; (; 16; ); ; ; MeV; ; ; . These results predict the scale-independent ratio; ; ; m; c; ; /; ; m; s; ; =; 12.1; (; 4; ); ; . Generalization to other observables is possible, providing an efficient approach to determine nonperturbatively renormalized fermionic observables like form factors or bag parameters from lattice simulations.;

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