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HK: Physik der Hadronen und Kerne
HK 19: Theorie II
HK 19.2: Gruppenbericht
Dienstag, 18. März 2003, 16:00–16:30, D
Chiral Dynamics and Nuclear Matter — •Stefan Fritsch1, Norbert Kaiser1, and Wolfram Weise2,1 — 1Physik Department der Technischen Universität München, Garching, Germany — 2ECT*, Villazzano (Trento), Italy
We calculate the equation of state of isospin-symmetric nuclear matter in the three-loop approximation of chiral perturbation theory. The contributions to the energy per particle Ē(kf) from one- and two-pion exchange diagrams are ordered in powers of the Fermi-momentum kf (modulo functions of kf /mπ). Already at order O(kf4) two-pion exchange produces realistic nuclear binding. Without inclusion of any further short-range terms the empirical saturation point and nuclear compressibility K≃ 250 MeV are well reproduced at order O(kf5) with a momentum cut-off of Λ≃ 0.65 GeV. In the same framework we calculate the density-dependent asymmetry energy, reproducing its empirical value of A0≃ 34 MeV. We also evaluate the momentum and density dependent single particle potential of nucleons in isospin-symmetric nuclear matter. Furthermore, we extend our scheme to finite temperatures and observe the liquid–gas phase transition of nuclear matter at Tc≃ 25.5 MeV and ρc≃ 0.5ρ0. Finally, we investigate the influence of additional short range NN-interaction terms on the momentum dependence of the single particle potential and on the critical temperature of the phase transition.
Work supported in part by BMBF, GSI and DFG.