On the Effects of Heavy Sea Quarks at Low Energies

Bruno, Mattia; Sommer, Rainer; ALPHA Collaboration; Leder, Bjoern; Finkenrath, Jacob; Knechtli, Francesco

Preprint/Internal Report

PUBDB-2014-04035

On the Effects of Heavy Sea Quarks at Low Energies

Bruno, M. (Corresponding Author)DESY* ; Finkenrath, J. ; Knechtli, F. ; Leder, B. ; Sommer, R.DESY* ; ALPHA Collaboration (Collaboration author)

2014

This record in other databases:

Report No.: DESY 14-190; SFB-CPP-14-78; WUP-14-11; arXiv:1410.8374

Abstract: We present a factorisation formula for the dependence of light hadron masses and low energy hadronic scales on the mass $M$ of a heavy quark: apart from an overall factor $Q$, ratios such as $r_0(M)/r_0(0)$ are computable in perturbation theory at large $M$. The mass-independent factor $Q$ is obtained from the theory in the limit $M\to0$ and the decoupled theory with the heavy quark removed. The perturbation theory part is stable concerning different loop orders and our non-perturbative results match on quantitatively to the perturbative prediction. Upon taking ratios of different hadronic scales at the same mass, the perturbative function drops out and the ratios are given by the decoupled theory up to $M^{-2}$ corrections. Our present numerical results are obtained in a model calculation where there are no light quarks and a heavy doublet of quarks is decoupled. They are limited to masses a factor two below the charm. This is not large enough to see the $M^{-2}$ scaling predicted by the theory, but it is sufficient to verify - in the continuum limit - that the sea quark effects of quarks with masses around the charm mass are very small.

Contributing Institute(s):