Relation Between Pole and Running Masses of Heavy Quarks Using the Principle of Maximum Conformality

Abstract

Abstract The relation of the pole and running heavy quark masses of the order of $\mathcal {O}\left(\alpha _s^4\right)$ in perturbative quantum chromodynamics (pQCD) can be obtained using the principle of maximum conformality (PMC), a formalism that provides a rigorous method for eliminating renormalization scale and scheme ambiguities for observables in pQCD. Using PMC, optimal renormalization scale for the heavy quark mass ratio is determined, independent of the renormalization scale and scheme up to order $\alpha _s^4$. Precise values are then obtained for the PMC pole masses of the heavy quarks $M_b^{\text{PMC}}=4.86^{+0.03}_{-0.02}$ GeV, $M_t^{\text{PMC}}=172.3\pm 0.6$ GeV, and the running mass $\overline{m}_t^{\text{PMC}}=162.6\pm 0.7$ GeV at the PMC scale.