Effects of the density-dependent weak form factors on the neutrino reaction via neutral current for the nucleon in nuclear medium and $^{12}$C

The nucleonform factors in free space are usually thought to be modified when a nucleonis bound in a nucleus or immersed in a nuclear medium. We investigate effects of the density-dependentaxial and weak-vector form factors on the electro-neutrino ($\nu_e$) and anti-electro-neutrino $({\bar \nu_e})$ reactions via neutral current(NC) for a nucleonin nuclear medium or $^{12}$C. For the density-dependentform factors, we exploit the quark-meson-coupling (QMC) model, and apply them to the $\nu_e$ and ${\bar \nu_e}$ induced reactions by NC. About 12% decrease of the total cross section by $\nu_e$ reaction on the nucleonis obtained at normal density, $\rho = \rho_0 \sim 0.15 {fm}^{-3} $, as well as about 18% reduction of total ${\nu}_e$ cross section on $^{12}$C, by the modification of the weak form factors of the bound nucleon. However, similarly to the charged currentreaction, effects of the nucleonproperty change in the ${\bar \nu}_e$ reaction reduce significantly the cross sections about 30% for the nucleonin matter and $^{12}$C cases. Such a large asymmetry in the ${\bar \nu}_e$ cross sections is addressed to originate from the different helicities of ${\bar \nu}_e$ and ${\nu}_e$.