Processing tool cleaning using laser ablation

What is claimed is: 1. A mold for forming a composite part, the mold comprising: a base portion, wherein the base portion comprises a non-metal material; a protective optical layer, disposed over and adhered to the base portion, wherein the protective optical layer is operable to block a laser beam from reaching the base portion during a laser ablation of the mold and to at least in part reflect the laser beam; and a release layer, disposed over the protective optical layer, wherein the release layer forms a surface of the mold for contacting the composite part, and wherein the release layer comprises a material selected from the group consisting of a silicone release agent, a fluoropolymer, and a polysilazane resin. 2. The mold of claim 1 , wherein the protective optical layer comprises a reflective material selected from the group consisting of metal flakes and ceramic flakes. 3. The mold of claim 2 , wherein the reflective material is uniformly dispersed throughout the protective optical layer. 4. The mold of claim 2 , wherein the reflective material is concentrated near an interface between the protective optical layer and the release layer. 5. The mold of claim 2 , wherein the protective optical layer comprises the metal flakes selected from the group consisting of alumina flakes, stainless flakes, and nickel flakes. 6. The mold of claim 1 , wherein the protective optical layer comprises [[4-(1,1-dimethylethyl)phenoxy]methyl] oxirane. 7. The mold of claim 1 , wherein the protective optical layer comprises titanium oxide. 8. The mold of claim 1 , wherein the release layer is transparent to the laser beam. 9. The mold of claim 1 , wherein the release layer is transparent to light reflected by the protective optical layer. 10. The mold of claim 1 , wherein the non-metal material of the base portion is a composite. 11. A mold for forming a composite part, the mold comprising: a base portion, wherein the base portion comprises a non-metal material; and a protective optical layer, disposed over and adhered to the base portion, wherein the protective optical layer is operable to block a laser beam from reaching the base portion during a laser ablation of the mold and to at least in part reflect the laser beam, and wherein the protective optical layer comprises a material selected from the group consisting of a silicone release agent, a fluoropolymer, and a polysilazane resin. 12. The mold of claim 11 , wherein the protective optical layer forms a surface of the mold for contacting the composite part. 13. The mold of claim 11 , wherein the protective optical layer comprises a reflective material selected from the group consisting of metal flakes and ceramic flakes. 14. The mold of claim 13 , wherein the reflective material is uniformly dispersed throughout the protective optical layer. 15. The mold of claim 13 , wherein the reflective material is concentrated near a surface of the protective optical layer opposite the base portion. 16. The mold of claim 13 , wherein the protective optical layer comprises the metal flakes selected from the group consisting of alumina flakes, stainless flakes, and nickel flakes. 17. The mold of claim 11 , wherein the protective optical layer comprises [[4-(1,1-dimethylethyl)phenoxy]methyl] oxirane. 18. The mold of claim 11 , wherein the protective optical layer comprises titanium oxide. 19. The mold of claim 11 , wherein the non-metal material of the base portion is a composite material. 20. The mold of claim 19 , wherein the composite material is one of bismaleimide carbon fiber reinforced polymer, epoxy carbon fiber reinforced polymer, or benzoxazine carbon reinforced polymer.