Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2003-09-23
J.Phys.G30:863-872,2004
Physics
High Energy Physics
High Energy Physics - Phenomenology
8 pages, 4 eps-figures, revtex4; the version as it will appear in J.Phys.G.; the first paragraph, the paragraph containing Eqs
Scientific paper
10.1088/0954-3899/30/7/003
It had been known that the Borel transforms of the twice quark pole mass 2*mq and of the QCD q-barq static potential V(r) have leading infrared renormalons at b=1/2 such that they cancel in the sum. The renormalon residue of 2*mq had been determined with reasonably high precision from the known perturbative coefficients of the ratio mq/(bar mq), where (bar mq) is the barMS renormalon-free mass of the quark q. These values of the residues are used here to estimate the hitherto unknown part of the three-loop coefficient of the static potential V(r). Further, the method takes into account the fact that the ultrasoft energy regime contributions must be excluded from the analysis. In the b-barb quarkonium, aforementioned estimated part of the three-loop term turns out to give a contribution to the binding energy comparable to the nonpertubative contribution.
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