Gravitational form factors of nuclei in the Skyrme model

Abstract

We compute the gravitational form factor D(t) of various nuclei in the generalized Skyrme model where nuclei are described as solitonic field configurations each with a definite baryon number B. We separately discuss the cases B=1 (nucleons), B=2 (deuteron), B=3 (helium-3 and tritium) and extrapolate to larger B-values. Configurations with B>1 are in general not spherically symmetric, and we demonstrate how group theory helps to extract the form factor. Numerical results are presented for the configurations with B=1,2,3,4,5,6,7,8,32,108. We find that the B-dependence is consistent with a power-law D(0) Bβ with β=1.7 1.8. Other gravitational form factors can be calculated in the same framework, and we show the result for the J(t) form factor associated with angular momentum for the B=3 solution.