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Münster 2017 – scientific programme

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HK: Fachverband Physik der Hadronen und Kerne

HK 49: Structure and Dynamics of Nuclei VIII

HK 49.6: Talk

Thursday, March 30, 2017, 18:15–18:30, F 33

Third-order particle-hole ring contributions from contact-interactions and chiral NN-potentials — •Norbert Kaiser — Physik Department, Technische Universität München, 85748 Garching

A missing piece in perturbative calculations of nuclear matter with chiral low-momentum interactions are the particle-hole ring contributions at third-order. We evaluate the 3rd-order particle-hole ring diagrams for a momentum-dependent NN-contact interaction of the Skyrme-type. By working with the antisymmetrized contact-interaction just one 4-loop diagram needs to be computed. The corresponding result for the 3-ring energy per particle Ē(kf) is a cubic expression in the Skyrme-parameters ti, xi, W0 with numerical coefficients Nj that are given by double-integrals over cubic expressions in euclidean (scalar, vector, tensor) polarizations functions Qj(s,κ). Dimensional regularization of these integrals is realized by subtracting power-divergences and the validity of the method is checked against analytical results at 2nd order. The 3rd-order ring-energy from 1π-exchange is calculated semi-analytically and found to be very strongly attractive, with Ē(kf0)≃ −92 MeV. For the N3LO chiral NN-potential the 3-ring energy in symmetric nuclear matter and neutron matter is weakly attractive and it decreases for softer potentials (with lower cutoffs). The extensive computations based on partial-wave matrix elements are checked against semi-analytical treatments for model interactions.

Work supported in part by DFG and NSFC (CRC110).

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