In this work, we investigate the implantation and diffusion of phosphorous (P) in germanium (Ge). Ge wafers were implanted at two different doses (5×10 13 and 10 15 cm −2 ) and a range of energies (30, 50 and 150keV). Part of the wafers was covered with a 40nm silicon dioxide (SiO 2 ) and an 80nm silicon nitride (Si 3 N 4 ) capping layer while the rest remained uncovered. Subsequently, the samples were furnace-annealed in an inert ambient (N 2 ) at 500°C and a range of annealing times (30min to 5h). The experimental concentration profiles were obtained by secondary ion mass spectroscopy (SIMS). In the case of uncovered samples, substrate evaporation and significant phosphorous dose loss was observed, depending on the implantation and annealing conditions. At the lower implant dose, there is insignificant diffusion of phosphorous atoms in Ge, whereas at the higher implant dose, phosphorous exhibits a box profile consistent with previous experimental studies.