Scanning capacitance microscopy (SCM) has been widely employed to map carrier distribution and electrical junctions. However, any photoperturbation may cause significant deterioration in the accuracy of the junction characterization. In this work, we demonstrated the method of controlling photoperturbation within SCM images and employed low-photoperturbed SCM to investigate the influence of annealing sequence on electrical junctions. Using low-photoperturbed SCM, operated under the same photoperturbation levels, we have observed the junction narrowing produced by post-spike furnace annealing (FA) at low temperatures. The experimental results indicate that the electrical junction formed by spike annealing is unstable.