The mechanism of hydrogen plasma passivation for poly-crystalline silicon(poly-Si) thin films is investigated by optical emission spectroscopy(OES) combined with Hall mobility,Raman spectra,absorption coefficient spectra,and so on.It is found that different kinds of hydrogen plasma radicals are responsible for passivating different defects in polySi.The Hαwith lower energy is mainly responsible for passivating the solid phase crystallization(SPC) poly-Si whose crystallization precursor is deposited by plasma-enhanced chemical vapor deposition(PECVD).The H?with higher energy may passivate the defects related to teh Ni impurity around the grain boundaries more effectively.In addition,Hβand Hγwith the highest energy are required to passivate intra-grain defects in the poly-Si crystallized by SPC but whose precursor is deposited by low pressure chemical vapor deposition(LPCVD). The mechanism of hydrogen plasma passivation for poly-crystalline silicon (poly-Si) thin films is investigated by optical emission spectroscopy (OES) combined with Hall mobility, Raman spectra, absorption coefficient spectra, and so on. It is found that different kinds of hydrogen plasma radicals are responsible for passivating different defects in polySi. The Hα with lower energy is mainly responsible for passivating the solid phase crystallization (SPC) poly-Si whose crystallization precursor is deposited by plasma-enhanced chemical vapor deposition (PECVD). The H? with higher energy may passivate the defects related to teh Ni impurity around the grain boundaries more effectively.In addition, Hβand Hγwith the highest energy are required to passivate intra-grain defects in the poly-Si crystallized by SPC but the precursor is deposited by low pressure chemical vapor deposition (LPCVD).