n⁺poly-Ge films were fabricated from amorphous Ge with various doses of P-ion implantation by annealing sequences using combinations of flash lamp annealing (FLA) and conventional furnace annealing (FA). It was clarified that crystallization by FA resulted in p⁺poly-Ge films with high hole concentration (~10¹⁸ cm^-3) originating from acceptor-like defects; on the other hand, activation annealing by FLA resulted in n⁺poly-Ge films with high electron concentration (~10¹⁹ cm^-3). Activation ratios as high as those for crystalline Ge and high electron mobility (>140 cm²/Vs) exceeding the values for crystalline Si were achieved. The origin of these high values in the FLA-activated poly-Ge could be explained by the lower concentration of acceptor-like defects inside grain than that in FA-activated poly-Ge.