Autostereoscopic display illumination apparatuses and autostereoscopic display devices incorporating the same

The invention claimed is: 1. An illumination apparatus for an autostereoscopic display device, the illumination apparatus comprising: a substrate comprising a front face; an optical fiber arranged on the substrate such that the optical fiber defines a plurality of straight portions, the optical fiber comprising a first end and a core, wherein the optical fiber radially scatters light from its sides such that light is guided away from the core of the optical fiber and the straight portions act as linear emitters; and a light source optically coupled to the first end of the optical fiber, the light source emitting light at one or more desired wavelengths, wherein: the core of the optical fiber comprises: a region with a plurality of nano-sized structures within the core configured to scatter guided light via the plurality of nano-sized structures towards an outer surface of the optical fiber; and a solid glass region surrounding the region with a plurality of nano-sized structures having a higher refractive index delta than the region with a plurality of nano-sized structures; and the optical fiber further comprises a low index cladding surrounding the core, the cladding having a lower refractive index delta than the solid glass region. 2. The illumination apparatus of claim 1 , wherein the optical fiber is arranged on the substrate such that individual straight portions of the plurality of straight portions are separated by a bent portion of the optical fiber. 3. The illumination apparatus of claim 1 , wherein a number of straight portions of the optical fiber of the illumination apparatus is approximately equal to a number of pixels along a width of a display panel of the autostereoscopic display device divided by a number of simultaneous views N. 4. The illumination apparatus of claim 1 , wherein the front face of the substrate comprises a plurality of grooves and the plurality of straight portions of the optical fiber is positioned in the plurality of grooves. 5. The illumination apparatus of claim 1 , further comprising a transparent substrate positioned on the optical fiber such that the optical fiber is positioned between the substrate and the transparent substrate. 6. The illumination apparatus of claim 1 , further comprising a second optical fiber arranged on the substrate such that the second optical fiber defines a plurality of straight portions that act as the linear emitters. 7. The illumination apparatus of claim 1 , further comprising a prism device positioned in an optical path of the optical fiber, the prism device creating two or more images of the optical fiber. 8. The illumination apparatus of claim 7 , wherein the prism device comprises a relatively flat portion and an angled portion. 9. The illumination apparatus of claim 7 , wherein the prism device comprises an angular filter film. 10. The illumination apparatus of claim 1 , further comprising a termination device coupled to a second end of the optical fiber. 11. The illumination apparatus of claim 1 , wherein the light source comprises a laser. 12. An autostereoscopic display device comprising: a display panel comprising an array of pixels; an illumination apparatus comprising: a substrate comprising a front face; an optical fiber arranged on the substrate such that the optical fiber defines a plurality of straight portions, the optical fiber comprising a first end and a core, wherein the optical fiber radially scatters light from its sides such that light is guided away from the core of the optical fiber and the straight portions act as linear emitters that emit light toward the display panel; and a light source optically coupled to the first end of the optical fiber, the light source emitting light at one or more desired wavelengths, wherein: the core of the optical fiber comprises: a region with a plurality of nano-sized structures within the core configured to scatter guided light via the plurality of nano-sized structures towards an outer surface of the optical fiber; and a solid glass region surrounding the region with a plurality of nano-sized structures having a higher refractive index delta than the region with a plurality of nano-sized structures; and the optical fiber further comprises a low index cladding surrounding the core, the cladding having a lower refractive index delta than the solid glass region. 13. The illumination apparatus of claim 12 , wherein the optical fiber is arranged on the substrate such that individual straight portions of the plurality of straight are separated by a bent portion of the optical fiber. 14. The illumination apparatus of claim 12 , wherein a number of straight portions of the illumination apparatus is approximately equal to a number of pixels along a width of the array of pixels divided by a number of simultaneous views N, and wherein the light emitted by the light source passes through adjacent pixels to create light cones separated by a distance of 70 to 90 mm. 15. The illumination apparatus of claim 12 , wherein the front face of the substrate comprises a plurality of grooves and the plurality of straight portions of the optical fiber is positioned in the plurality of grooves. 16. The illumination apparatus of claim 12 , wherein the illumination apparatus further comprises a transparent substrate positioned on the optical fiber such that the optical fiber is positioned between the substrate and the transparent substrate. 17. The illumination apparatus of claim 12 wherein the illumination apparatus further comprises a second optical fiber arranged on the substrate such that the second optical fiber defines a plurality of straight portions that act as the linear emitters. 18. The illumination apparatus of claim 12 , wherein the illumination apparatus further comprises a prism device positioned in an optical path of the optical fiber, the prism device creating two or more images of the optical fiber. 19. The illumination apparatus of claim 18 , wherein the prism device comprises a relatively flat portion and an angled portion. 20. The illumination apparatus of claim 18 , wherein the prism device comprises an angular filter film. 21. The illumination apparatus of claim 12 , wherein the light source comprises a laser. 22. An illumination apparatus for an autostereoscopic display device, the illumination apparatus comprising: a substrate comprising a front face; a plurality of optical fibers arranged on the substrate such that individual optical fibers of the plurality of optical fibers defines at least one straight portion, each of the individual optical fibers comprising a first end and a core, wherein the each of the individual optical fibers radially scatter light from its sides such that light is guided away from the core and the straight portions provided by the plurality of optical fibers act as linear emitters; and a light source optically coupled to the first end of each optical fiber of the plurality of optical fibers, the light source emitting light at one or more desired wavelengths, wherein the core of each individual optical fiber comprises: a region with a plurality of nano-sized structures within the core configured to scatter guided light via the plurality of nano-sized structures towards an outer surface of the optical fiber; and a solid region surrounding he region with a plurality of nano-sized structures having a higher refractive index delta than the region with a plurality of nano-sized structures; and each individua