Inert UV inkjet printing having dual curing modes for ultraviolet-curable ink

The invention claimed is: 1. A system comprising: a print head for depositing ultraviolet-curable ink onto a substrate; and a dual-mode curing station to cure the ultraviolet-curable ink onto the substrate, the dual-mode curing station operable in a first mode and a second mode, the first mode producing a matte finish, and the second mode producing a glossy finish, the first mode comprising a plurality of rollers supporting an atmospheric barrier film and applying the atmospheric barrier film at an angle to the substrate forming a pocket in which to introduce a gas, the atmospheric barrier film substantially preventing oxygen from entering the pocket, the second mode comprising the plurality of rollers supporting the atmospheric barrier film and applying the atmospheric barrier film substantially parallel to the substrate. 2. The system of claim 1 , each roller in the plurality of rollers individually movable to create the pocket between the atmospheric barrier film and the substrate, and to apply to the atmospheric barrier film substantially parallel to the substrate. 3. The system of claim 1 , the dual-mode curing station comprising a low-power ultraviolet (UV) light source consuming at most 15% of power consumed by a regular UV light source. 4. The system of claim 3 , the low-power UV light source illuminating the ultraviolet-curable ink through the atmospheric barrier film. 5. The system of claim 3 , the low-power UV light source extending along full width of a printing area associated with the substrate. 6. The system of claim 1 , comprising a second low-power UV light source disposed between the print head and the dual-mode curing station, the second low-power UV light source pinning the ultraviolet-curable ink onto the substrate. 7. The system of claim 6 , the second low-power UV light source directly illuminating the ultraviolet-curable ink. 8. The system of claim 1 , the atmospheric barrier film comprising a film substantially transparent to ultraviolet energy. 9. The system of claim 1 , the plurality of rollers supporting the atmospheric barrier film extending along full width of a printing area is associated with the substrate. 10. The system of claim 1 , the gas comprising a gas last reactive with the ultraviolet-curable ink then oxygen. 11. A method comprising: depositing an ultraviolet-curable ink onto a substrate; receiving an input specifying a matte finish or a glossy finish; in response to the input specifying the matte finish, curing the ultraviolet-curable ink by: applying an atmospheric barrier film at an angle to the substrate to form a pocket in which to introduce a less reactive gas, the atmospheric barrier film substantially preventing oxygen from entering the pocket; introducing the less reactive gas into the pocket, wherein the less reactive gas comprises a gas less reactive with the ultraviolet-curable ink than oxygen; illuminating the ultraviolet-curable ink using an ultra violet (UV) light source; in response to the input specifying the glossy finish, curing the ultraviolet-curable ink by: applying a pressure to the ultraviolet-curable ink deposited on the substrate using the atmospheric barrier film disposed substantially parallel to the substrate; and illuminating the ultraviolet-curable ink using the UV light source. 12. The method of claim 11 , comprising in response to the input specifying the glossy finish, said curing comprising: applying the atmospheric barrier film at the angle to the substrate to form the pocket in which to introduce the less reactive gas, the atmospheric barrier film substantially preventing oxygen from entering the pocket; introducing the less reactive gas into the pocket, wherein the less reactive gas comprises the gas less reactive with the ultraviolet-curable ink than oxygen; applying the pressure to the ultraviolet-curable ink deposited on the substrate using the atmospheric barrier film disposed substantially parallel to the substrate; and illuminating the ultraviolet-curable ink using the UV light source. 13. The method of claim 11 , comprising in response to the input specifying the matte finish, said curing comprising: applying the pressure to the ultraviolet-curable ink deposited on the substrate using a textured film disposed substantially parallel to the substrate; and illuminating the ultraviolet-curable ink using the UV light source. 14. The method of claim 11 , comprising reducing power consumption required in curing the ultraviolet-curable ink by at least 85 %, said reducing comprising: substantially removing oxygen between the atmospheric barrier film and the ultraviolet-curable ink deposited on the substrate; and illuminating the ultraviolet-curable ink with the UV light source through the atmospheric barrier film. 15. The method of claim 11 , comprising: prior to said curing, directly illuminating the ultraviolet-curable ink with a second low-power UV light source to pin the ultraviolet-curable ink onto the substrate. 16. A method comprising: providing a print head for depositing ultraviolet-curable ink onto a substrate; and providing a dual-mode curing station to cure the ultraviolet-curable ink onto the substrate, the dual-mode curing station operable in a first mode and a second mode, the first mode producing a matte finish, and the second mode producing a glossy finish, the first mode comprising a plurality of rollers supporting an atmospheric barrier film and applying the atmospheric barrier film at an angle to the substrate forming a pocket in which to introduce a gas, the atmospheric barrier film substantially preventing oxygen from entering the pocket, the second mode comprising the plurality of rollers supporting the atmospheric barrier film and applying the atmospheric barrier film substantially parallel to the substrate. 17. The method of claim 16 , providing the plurality of rollers wherein each roller in the plurality of rollers individually movable to create the pocket between the atmospheric barrier film and the substrate, and to apply to the atmospheric barrier film substantially parallel to the substrate. 18. The method of claim 16 , providing a low-power ultraviolet (UV) light source consuming at most 15% of power consumed by a regular UV light source. 19. The method of claim 16 , providing a second low-power UV light source disposed between the print head and the dual-mode curing station, the second low-power UV light source pinning the ultraviolet-curable ink onto the substrate. 20. The method of claim 16 , providing the plurality of rollers supporting the atmospheric barrier film extending along full width of a printing area is associated with the substrate.