A High Precision Study of the QQ(bar) Potential from Wilson Loops in the Regime of String Breaking

A High Precision Study of the QQ(bar) Potential from Wilson Loops in the Regime of String Breaking

For lattice QCD with two sea quark flavours we compute the static quark antiquark potential V(R) in the regime where string breaking is expected. In order to increase statistics, we make full use of the lattice information by including all lattice vectors R to any possible lattice separation in the...

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Veröffentlicht in:arXiv.org 2000-05
Hauptverfasser: Bolder, B, Struckmann, T, Bali, G S, Eicker, N, Lippert, Th, Orth, B, Schilling, K, Ueberholz, P
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Breaking
Computer graphics
Error reduction
Flavor (particle physics)
Quantum chromodynamics
Quarks
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Zusammenfassung:For lattice QCD with two sea quark flavours we compute the static quark antiquark potential V(R) in the regime where string breaking is expected. In order to increase statistics, we make full use of the lattice information by including all lattice vectors R to any possible lattice separation in the infrared regime. The corresponding paths between the lattice points are constructed by means of a generalized Bresenham algorithm as known from computer graphics. As a results we achieve a determination of the unquenched potential in the range .8 to 1.5 fm with hitherto unknown precision. Furthermore, we demonstrate some error reducing methods for the evaluation of the transition matrix element between two- and four-quark states.
ISSN:2331-8422
DOI:10.48550/arxiv.0005018