Cascade Baryon Spectrum from Lattice QCD

Nilmani Mathur; John M. Bulava; Robert G. Edwards; Eric Engelson; Balint Joo; Adam Lichtl; Huey-Wen Lin; Colin Morningstar; David G. Richards; Stephen J. Wallace

Cascade Baryon Spectrum from Lattice QCD

High Energy Physics - Lattice 2010-01-21 v1

Authors: Nilmani Mathur , John M. Bulava , Robert G. Edwards , Eric Engelson , Balint Joo , Adam Lichtl , Huey-Wen Lin , Colin Morningstar , David G. Richards , Stephen J. Wallace

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Abstract

A comprehensive study of the cascade baryon spectrum using lattice QCD affords the prospect of predicting the masses of states not yet discovered experimentally, and determining the spin and parity of those states for which the quantum numbers are not yet known. The study of the cascades, containing two strange quarks, is particularly attractive for lattice QCD in that the chiral effects are reduced compared to states composed only of u/d quarks, and the states are typically narrow. We report preliminary results for the cascade spectrum obtained by using anisotropic N_f = 2 Wilson lattices with temporal lattice spacing inverse 5.56 GeV.

Keywords

lattice qcd baryon physics exotic hadrons

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@article{arxiv.0811.1400,
  title  = {Cascade Baryon Spectrum from Lattice QCD},
  author = {Nilmani Mathur and John M. Bulava and Robert G. Edwards and Eric Engelson and Balint Joo and Adam Lichtl and Huey-Wen Lin and Colin Morningstar and David G. Richards and Stephen J. Wallace},
  journal= {arXiv preprint arXiv:0811.1400},
  year   = {2010}
}

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7 pages, talk presented at XXVI International Symposium on Lattice Field Theory (Lattice 2008), July 14-19, 2008, Williamsburg, Virgina, USA

Cascade Baryon Spectrum from Lattice QCD

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