In this paper, we present two-photon three-dimensional imaging of ion beam deposited gallium ion (Ga⁺) doping in zinc selenide (ZnSe) crystal. Doping of ZnSe with Ga⁺ leads to decrease of two-photon excitation. Measuring the photoluminescence intensity allows for mapping of doping concentration. Tightly focused light beam radiated by titanium-sapphire laser is used to excite two-photon fluorescence of selected point of ZnSe sample. Image of the doped volume is obtained by scanning the area of interest with piezoelectric stage. The excited photoluminescence intensity from a single point is registered as a pixel of the final image. The method was used to measure the depth and concentration of dopants deposited under changing acceleration voltage and ion dose.