In this paper, we calculate the properties of the spin polarized isospin asymmetric nuclear matter by employing the Skyrme effective interaction with two sets of parameters SKM * and SⅢ, giving the equation of the state and the radio det(1/χ)det(1/χ F) which is shown as a function of the density for several values of the asymmetry parameter β.

The properties of the spin polarized isospin symmetric nuclear matter and neutron matter as well as their equations of state are investigated by employing the Skyrme effective interaction with four sets of parameters SKM *, SⅢ, SLy230a and SLy230b.

The experimental data of 12 C( p,p′)(p,n ) and 40 Ca( p,p′ ) in the low energy region(≤80MeV) were analyzed using M3Y effective interaction and Halderson’s effective interaction in the theoretical frame of DWBA.

A complex density-dependent and energy-dependent effective interaction(CEG) and transition densities obtained from electron scattering were used in the calculations.

The interacting boson model with the boson effective interaction has been used to studythe nuclear spectra.