Name: Strange hadronic matter
Keywords: Binding Energy, Data, Energy, Matter, 73 Nuclear Physics And Radiation Physics, Strangeness, Hyperons, Mean-Field Theory, Hadrons, Strange Particles 663110* -- General & Average Properties Of Nuclei & Nuclear Energy Levels-- (1992-)

descriptionPublicationkeyboard_double_arrow_right Report 01 Feb 1993Publisher:Office of Scientific and Technical Information (OSTI)

Authors: Schafner; J. (Washington Univ.; Seattle; WA (United States). Inst. for Nuclear Theory Frankfurt Univ. (Germany). Inst. fuer Theoretische Physik); Dover; C.B. (Washington Univ.; WA (United States). Inst. for Nuclear Theory Brookhaven National Lab.; +5 Authors

doi: 10.2172/6326750

Strange hadronic matter

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Abstract

In an extended mean field theory, there is found a large class of bound multi-strange objects, formed from combinations of (p,n,[Lambda] [Xi][sup 0] [Xi][sup [minus]], baryons, which are stable against strong decay. A maximal binding energy per baryon of E[sub B]/A [approx] [minus]21 MeV, strangeness per baryon of [integral][sub s] [approx] 1--1.2, charge per baryon of [integral][sub q] [approx] [minus]-0.1 to 0.1, and baryon density of 2.5--3 times that of ordinary nuclei are predicted. For A [ge] 6, stable combinations involving only ([Lambda],[Xi][sup 0],[Xi]) hyperons are obtained.

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Keywords

Binding Energy, Data, Energy, Matter, 73 Nuclear Physics And Radiation Physics, Strangeness, Hyperons, Mean-Field Theory, Hadrons, Strange Particles 663110* -- General & Average Properties Of Nuclei & Nuclear Energy Levels-- (1992-), Nuclei, Numerical Data, Information, Hypernuclei, Baryons, Bound State, Nuclear Matter, Nuclear Fragments, Particle Properties, Fermions, Elementary Particles, Theoretical Data, Nucleons

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