ABSTRACT We study the negative energy bound states of a nucleus utilizing the relativistic mean f... more ABSTRACT We study the negative energy bound states of a nucleus utilizing the relativistic mean field theory for different parameter sets. It is found that for the TM1 parameter set, the depth of the negative-energy potential is small as compared to the NL-1, NL-SH and NL-Z parameter sets. The high density scenario in the mean field theory is achieved by a scaling procedure for the density and radius. The production of antibaryon clusters is predicted for very high density and temperature and its possible experimental investigation is also addressed.
ABSTRACT We study the negative energy bound states of a nucleus utilizing the relativistic mean f... more ABSTRACT We study the negative energy bound states of a nucleus utilizing the relativistic mean field theory for different parameter sets. It is found that for the TM1 parameter set, the depth of the negative-energy potential is small as compared to the NL-1, NL-SH and NL-Z parameter sets. The high density scenario in the mean field theory is achieved by a scaling procedure for the density and radius. The production of antibaryon clusters is predicted for very high density and temperature and its possible experimental investigation is also addressed.
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Papers by J. Maruhn