Ultraviolet diffusive illumination

What is claimed is: 1. An illuminator comprising: at least one ultraviolet radiation source configured to generate ultraviolet radiation; a reflective cavity comprising a plurality of surfaces, wherein the at least one ultraviolet radiation source is located within the reflective cavity, and wherein at least one of the plurality of surfaces is formed of a first material configured to diffusively reflect at least 70% of the ultraviolet radiation, and at least one of the plurality of surfaces is formed of a second material configured to transmit at least 30% of the ultraviolet radiation through the second material and out of the reflective cavity and reflect at least 10% of the ultraviolet radiation, wherein the second material is patterned to include a plurality of holes configured to increase uniformity of the ultraviolet radiation exiting the reflective cavity; and a set of reflecting mirrors located within the reflective cavity and configured to diffusively reflect the ultraviolet radiation, wherein each reflecting mirror is patterned to include a plurality of holes configured to improve an intensity distribution of the ultraviolet radiation exiting the reflective cavity. 2. The illuminator of claim 1 , wherein each reflecting mirror is located a distance directly below the at least one ultraviolet radiation source, wherein the distance is on an order of a diameter of the at least one ultraviolet radiation source. 3. The illuminator of claim 1 , wherein a distribution of intensity for the ultraviolet radiation transmitted out of the reflective cavity has a maximum-to-minimum ratio of at most 8. 4. The illuminator of claim 1 , wherein the at least one ultraviolet radiation source generates ultraviolet radiation that is directed towards the at least one surface that is configured to diffusively reflect at least 70% of the ultraviolet radiation. 5. The illuminator of claim 4 , wherein the at least one ultraviolet radiation source is mounted on a mounting mesh. 6. The illuminator of claim 1 , wherein the at least one surface that is configured to diffusively reflect at least 70% of the ultraviolet radiation includes a plurality of diffusive elements. 7. The illuminator of claim 1 , wherein the at least one ultraviolet radiation source includes an array of ultraviolet radiation sources. 8. The illuminator of claim 7 , further comprising a partially transparent, partially reflective mesh located within the reflective cavity configured to diffusively reflect the ultraviolet radiation from the array of ultraviolet radiation sources. 9. The illuminator of claim 1 , wherein the ultraviolet radiation emitted from the illuminator has an intensity distribution that is within approximately 10% of a diffusive uniform Lambertian distribution for any angle of reflectance. 10. The illuminator of claim 1 , further comprising a plurality of ultraviolet radiation sources and a control system configured to independently adjust each of the ultraviolet radiation sources. 11. A system comprising: an enclosure configured to contain an object for disinfection; and an illuminator located within the enclosure, the illuminator comprising at least one ultraviolet radiation source configured to generate ultraviolet radiation; a reflective cavity comprising a plurality of surfaces, wherein the at least one ultraviolet radiation source is located within the reflective cavity, and wherein at least one of the plurality of surfaces is formed of a first material configured to diffusively reflect at least 70% of the ultraviolet radiation, and at least one of the plurality of surfaces is formed of a second material configured to transmit at least 30% of the ultraviolet radiation through the second material and out of the reflective cavity and reflect at least 10% of the ultraviolet radiation, wherein the second material is patterned to include a plurality of holes configured to increase uniformity of the ultraviolet radiation exiting the reflective cavity; and a set of reflecting mirrors located within the reflective cavity and configured to diffusively reflect the ultraviolet radiation, wherein each reflecting mirror is patterned to include a plurality of holes configured to improve an intensity distribution of the ultraviolet radiation exiting the reflective cavity. 12. The system of claim 11 , wherein each reflecting mirror is located a distance directly below the at least one ultraviolet radiation source, wherein the distance is on an order of a diameter of the at least one ultraviolet radiation source. 13. The system of claim 11 , wherein a distribution of intensity for the ultraviolet radiation transmitted out of the reflective cavity has a maximum-to-minimum ratio of at most 8. 14. The system of claim 13 , wherein the at least one ultraviolet radiation source is mounted on a mounting mesh, the mounting mesh comprising a plurality of voids for transmitting the diffused ultraviolet radiation. 15. The system of claim 11 , wherein the at least one surface that is configured to diffusively reflect at least 70% of the ultraviolet radiation includes a plurality of diffusive elements. 16. The system of claim 11 , further comprising a partially transparent, partially reflective mesh located within the reflective cavity configured to diffusively reflect the ultraviolet radiation from the at least one ultraviolet radiation source. 17. An illuminator comprising: at least one ultraviolet radiation source configured to generate ultraviolet radiation; and a reflective cavity comprising a plurality of surfaces, wherein the at least one ultraviolet radiation source is located within the reflective cavity, and wherein at least one of the plurality of surfaces is formed of a first material configured to diffusively reflect at least 70% of the ultraviolet radiation, and at least one of the plurality of surfaces is formed of a second material configured to transmit at least 30% of the ultraviolet radiation through the second material and out of the reflective cavity and reflect at least 10% of the ultraviolet radiation, wherein the second material is patterned to include a plurality of holes configured to increase uniformity of the ultraviolet radiation exiting the reflective cavity, and wherein the ultraviolet radiation emitted from the illuminator has an intensity distribution that is within approximately 10% of a diffusive uniform Lambertian distribution for any angle of reflectance; and a set of reflecting mirrors located within the reflective cavity and configured to diffusively reflect the ultraviolet radiation, wherein each reflecting mirror is patterned to include a plurality of holes configured to improve an intensity distribution of the ultraviolet radiation exiting the reflective cavity. 18. The illuminator of claim 17 , wherein each of the set of reflecting mirrors comprise a vertex angle of at least 90 degrees, and wherein each reflecting mirror is located a distance directly below one of the at least one ultraviolet radiation source, wherein the distance is on an order of a diameter of the one of the at least one ultraviolet radiation source. 19. The illuminator of claim 18 , wherein a distribution of intensity for the ultraviolet radiation transmitted out of the reflective cavity has a maximum-to-minimum ratio of at most 8. 20. The illuminator of claim 17 , wherein the at least one ultraviolet radiation source generates ultraviolet radiation that is directed towards the at least one surface that is configured to diffusively reflect at least 70% of the ultrav