Light Nuclei and Hypernuclei from Quantum Chromodynamics in the Limit of SU(3) Flavor Symmetry

A. Parreno; A. Walker-Loud; E. Chang; H. W. Lin; K. Orginos; M. J. Savage; S. D. Cohen; S. R. Beane; T. C. Luu; W. Detmold

arxiv: 1206.5219 · v2 · pith:XDG2KFEYnew · submitted 2012-06-22 · ✦ hep-lat · hep-ph· nucl-th

Light Nuclei and Hypernuclei from Quantum Chromodynamics in the Limit of SU(3) Flavor Symmetry

S. R. Beane , E. Chang , S. D. Cohen , W. Detmold , H. W. Lin , T. C. Luu , K. Orginos , A. Parreno

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M. J. Savage A. Walker-Loud

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classification ✦ hep-lat hep-phnucl-th

keywords lambdalatticechromodynamicshypernucleilightlimitnucleiquantum

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The binding energies of a range of nuclei and hypernuclei with atomic number A <= 4 and strangeness |s| <= 2, including the deuteron, di-neutron, H-dibaryon, 3He, Lambda 3He, Lambda 4He, and Lambda Lambda 4He, are calculated in the limit of flavor-SU(3) symmetry at the physical strange quark mass with quantum chromodynamics (without electromagnetic interactions). The nuclear states are extracted from Lattice QCD calculations performed with n_f=3 dynamical light quarks using an isotropic clover discretization of the quark-action in three lattice volumes of spatial extent L ~ 3.4 fm, 4.5 fm and 6.7 fm, and with a single lattice spacing b ~ 0.145 fm.

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Two-nucleon systems at $m_{\pi}\approx292$ MeV from lattice QCD
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Lattice QCD at m_pi≈292 MeV finds virtual poles in the ^3S1 and ^1S0 NN channels with binding energies 6^{+5}_{-3} MeV and 11^{+6}_{-5} MeV, extracted via Lüscher and NPHF analyses.