In the present paper we studied the EOS in the framework of the BHF approach following Ref. 32, starting from the symmetric nuclear matter and the pure neutron matter, using the two-body forces and the inclusion of the suggested TBF. We illustrate the correction for the two-body forces, which fit in perfect way the TBF results of Ref. 32. In ...
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Our calculations are done for the single nucleon current operator and the calculations using 2N operators are in progress. We present results obtained within two approaches: without and with relativistic corrections. The capture rates results for the μ− + d → νμ + n + n reaction are calculated for both doublet (F = 1/2) and quadruplet (F = 3/2) ...
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A consistent framework for the calculations of all muoncapture processes on the deuteron, 3He, and other light nuclei should be ultimately prepared. This requires that the initial and final nuclear states are calculated with the same Hamiltonian and that the weak current operator is “compatible” with the nuclear forces. If the results of such calculations can be compared with precise ...
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The nuclear equation of state is calculated within the Bethe–Brueckner–Goldstone expansion with the inclusion of three-body forces. Two different realistic and accurate two-body forces are considered, the CD Bonn and the Argonne v18, which give quite different EOS. Surprisingly, the inclusion of the same three-body forces in the calculation produces two EOS's which are close to each other not only ...
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