Abstract
In most liquid dye lasers, dye cell windows are the optical components most susceptible to laser damage even at very low fluences. Although various mechanisms and mitigation techniques have been explored, damage still occurs at some point, and some behaviors of the process cannot be effectively explained. In this work, we investigated three special behaviors of dye cell window damage which cannot be explained by ordinary laser-induced damage mechanisms. We proposed that damage to dye cell windows can be caused by a contamination process similar to laser-induced contamination (LIC) on space optics, and used the LIC mechanism to analyze the cause of those damage behaviors. Additional experiments and calculations were conducted, providing more evidence in support of the analysis. In addition, it was found that dye molecules, which are necessary for dye lasers, are the primary contaminants in the LIC process. This explains the inevitable damage to dye cell windows.