massformel

Massformel, or the mass formula, is a semi-empirical relation in nuclear physics that expresses the binding energy and thus the mass of an atomic nucleus as a function of its proton number Z and mass number A. The idea is to decompose the binding energy into several contributing terms that reflect different physical effects observed in nuclei: a volume term that grows with A, a surface term that reduces binding near the surface, a Coulomb term that accounts for proton–proton repulsion, an asymmetry term that penalizes neutron–proton imbalance, and a pairing term that reflects nucleon pairing.

The most widely cited form is the Bethe–Weizsäcker semi-empirical mass formula (SEMF):

B(A,Z) = a_v A − a_s A^(2/3) − a_c Z(Z−1) A^(−1/3) − a_sym (A−2Z)^2 / A + δ(A,Z),

where B is the binding energy. The last term δ(A,Z) is a pairing term that is positive

Mass formulas are used to estimate unknown nuclear masses, locate drip lines, and inform models of nucleosynthesis.