Light diffusing component and a method of manufacturing a light diffusing component

The invention claimed is: 1. A method of producing a light diffusing component comprising: creating a pattern of scattering centers on at least a portion of a first surface of a substrate; the substrate further comprising an edge, the edge configured to receive a light source; the pattern having a lesser density of scattering centers adjacent the edge and a greater density of scattering centers as the distance from the edge increases, the creating step comprising: depositing a masking material on the first surface to create a mask on the first surface; adhering the mask to the first surface; and etching the first surface; wherein the masking material is ink and wherein the depositing step comprises depositing a first layer of ink having a uniform density and depositing a second layer of ink having a greater density of ink adjacent the edge and reducing the density of the ink as the distance from the edge increases. 2. The method of producing a light diffusing component of claim 1 wherein the substrate is a glass sheet. 3. The method of producing a light diffusing component of claim 1 wherein during the depositing step, ink is deposited through an ink nozzle and the density of the second layer of ink deposited during the depositing step is controlled by varying ink thickness, varying ink color, varying the ink nozzle height, or varying the ink nozzle speed. 4. The method of producing a light diffusing component of claim 1 wherein the adhering step comprises the step of curing the masking material in a manner to permit lessened etching adjacent the edge and permit increased etching as the distance from the edge increases. 5. The method of producing a light diffusing component of claim 4 wherein the curing is controlled by varying the temperature of the curing. 6. The method of producing a light diffusing component of claim 1 wherein the etching step comprises etching the first surface to create a gradient of density of scattering centers with a decreased density of scattering centers adjacent the edge and an increased density of scattering centers as the distance from the edge increases. 7. The method of producing a light diffusing component of claim 1 wherein the etching step is performed in an etch bath that comprises a mixture of glacial acetic acid (GAA) and ammonium fluoride (NH4F). 8. The method of producing a light diffusing component of claim 1 wherein the glass sheet further comprises a second surface, the second surface is spaced apart from the first surface, and further comprising laminating the second surface prior to the creating step, and cleaning the second surface after the creating step. 9. The method of producing a light diffusing component of claim 1 further comprising cleaning the first surface after the creating step. 10. The method of producing a light diffusing component of claim 1 further comprising cleaning the first surface after the creating step. 11. A method of producing a light diffusing component comprising: creating a pattern of scattering centers on at least a portion of a first surface of a substrate; the substrate further comprising an edge, the edge configured to receive a light source; the pattern having a lesser density of scattering centers adjacent the edge and a greater density of scattering centers as the distance from the edge increases, the creating step comprising: depositing a masking material on the first surface to create a mask on the first surface; adhering the mask to the first surface; and etching the first surface; wherein the adhering step comprises curing the masking material to permit lessened etching adjacent the edge and permit increased etching as the distance from the edge increases and the curing is controlled by varying the temperature of the curing. 12. The method of producing a light diffusing component of claim 11 wherein the substrate is a glass sheet. 13. The method of producing a light diffusing component of claim 11 wherein the depositing step comprises depositing a greater density of masking material adjacent the edge and reducing the density of the masking material as the distance from the edge increases. 14. The method of producing a light diffusing component of claim 11 wherein the masking material is ink. 15. The method of producing a light diffusing component of claim 14 wherein the ink is deposited with an inkjet printer, the inkjet printer depositing ink droplets comprising small dye particles randomly distributed in size. 16. The method of producing a light diffusing component of claim 14 wherein during the depositing step, ink is deposited through an ink nozzle and the density of the ink deposited during the depositing step is controlled by varying ink thickness, varying ink color, varying the ink nozzle height, or varying the ink nozzle speed. 17. The method of producing a light diffusing component of claim 11 wherein the etching step comprises etching the first surface to create a gradient of density of scattering centers with a decreased density of scattering centers adjacent the edge and an increased density of scattering centers as the distance from the edge increases. 18. The method of producing a light diffusing component of claim 11 wherein the etching step is performed in an etch bath that comprises a mixture of glacial acetic acid (GAA) and ammonium fluoride (NH4F).