Parallel Session C2 – Chair: W. GibbsNo Access

NON-NUCLEAR MULTIQUARK STATES: DIBARYONS AND PENTAQUARKS FROM A SUCCESSFUL NUCLEAR QUARK MODEL

T. GOLDMAN

Los Alamos National Laboratory, Los Alamos, NM 87545, USA

https://doi.org/10.1142/S0217751X05023748Cited by:0 (Source: Crossref)

Abstract

A model for nuclei described directly in terms of quarks has been developed in both relativistic and non-relativistic forms. It describes nuclear binding energy and structure for small nuclei (A=3,4) systematically correctly, including the EMC effect. With one free parameter each for strange and for nonstrange states, it also well describes low energy baryon-nucleon scattering, phase shifts and potentials. It predicts low mass, narrow dibaryon and pentaquark states. To be consistent with reported states, new physics may be required that is not included in any quark model to date.

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References

Collaborators on the material presented here include: Fan Wang (Nanjing U.), Jialun Ping (Nanjing Normal U.), Hourong Pang (Nanjing U. and ITP, CAS, Beijing), Guang-han Wu and Li-jian Teng (Sichuan U.), C. J. Benesh (Wesleyan College, GA), Kim Maltman (York U., Canada) and G. J. Stephenson, Jr. (U. of New Mexico) . Google Scholar
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Vol. 20, No. 08n09

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NON-NUCLEAR MULTIQUARK STATES: DIBARYONS AND PENTAQUARKS FROM A SUCCESSFUL NUCLEAR QUARK MODEL

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