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@ARTICLE{Eicker:860315,
author = {Eicker, N. and Lacock, P. and Schilling, K. and Spitz, A.
and Glässner, U. and Güsken, S. and Hoeber, H. and
Lippert, Th. and Struckmann, Th. and Ueberholz, P. and
Viehoff, J. and Ritzenhöfer, G.},
title = {{L}ight and strange hadron spectroscopy with dynamical
{W}ilson fermions},
journal = {Physical review / D},
volume = {59},
number = {1},
issn = {0556-2821},
address = {Melville, NY},
publisher = {Inst.812068},
reportid = {FZJ-2019-01090},
pages = {014509},
year = {1998},
abstract = {We present the final analysis of the light and strange
hadron spectra from a full QCD lattice simulation with two
degenerate dynamical sea quark flavors at β=5.6 on a
163×32 lattice. Four sets of sea quark masses corresponding
to the range 0.69<~mπ/mρ<~0.83 are investigated. For
reference we also ran a quenched simulation at βeff=6.0,
which is the point of equal lattice spacing, a−1ρ. In the
light sector, we find the chiral extrapolation to physical u
and d masses to present a major source of uncertainty,
comparable to the expected size of unquenching effects. From
linear and quadratic fits we can estimate the errors in the
hadron masses made from light quarks to be on a $15\%$ level
prior to the continuum extrapolation. For the hadrons with
strange valence quark content, the NF=2 approximation to QCD
appears not to cure the well-known failure of quenched QCD
to reproduce the physical K−K* splitting.},
ddc = {530},
typ = {PUB:(DE-HGF)16},
doi = {10.1103/PhysRevD.59.014509},
url = {https://juser.fz-juelich.de/record/860315},
}
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