Ionization of neutral atoms, making ions out of atoms, is a prerequisite for ion trapping. One way is to shoot fast electrons onto atoms and take advantage of inelastic collisions. The fast electrons can kick out electrons from the atomic shell creating an atom with at least one electron less than protons, so a positively charged ion. Instead of electrons, one can also use lasers photons with an energy higher that is above the atomic ionization energy to ionize neutral atoms by inelastic collisions. Since ionization energies are in the several eV range, one typically uses lasers in the deep UV or high power pulsed lasers in the UV. In the latter case, two photons are needed for the ionization. While quite straight forward to implement using electron guns or available lasers, these methods allow one to ionize different isotopes or even different elements. This might be advantageous if many species have to be studied but is a disadvantage if a very special isotope has to be trapped. In the latter case, one uses resonantly enhanced two-photon ionization. In a first step, a photon from a laser with a wavelength that is matched to an electronic transition excites the atom. This can be done element or isotope specific using a narrow linewidth laser. Then a second photon, usually from a different laser (e.g. that laser that will be used for ion cooling) having enough photon energy, ionizes the already excited atom. Such a selective ionization process is also used in resonance ionization mass spectroscopy.