The spin transparency at the normal/ferromagnetic metal (NM/FM) interface was studied in Pt/YIG/Cu/FM multilayers.The spin current generated by the spin Hall effect (SHE) in Pt flows into Cu/FM due to magnetic insulator YIG blocking charge current and transmitting spin current via the magnon current.Therefore,the nonlocal voltage induced by an inverse spin Hall effect (ISHE) in FM can be detected.With the magnetization of FM parallel or antiparallel to the spin polarization of pure spin currents (σsc),the spin-independent nonlocal voltage is induced.This indicates that the spin transparency at the Cu/FM interface is spin-independent,which demonstrates that the influence of spin-dependent electrochemical potential due to spin accumulation on the interfacial spin transparency is negligible.Furthermore,a larger spin Hall angle of Fe20Ni80 (Py) than that of Ni is obtained from the nonlocal voltage measurements.