Diffractive multibeam element-based backlighting

What is claimed is: 1. A diffractive multiview backlight comprising: a light guide configured to guide light in a propagation direction along a length of the light guide; and an array of diffractive multibeam elements spaced apart from one another along the light guide length, each diffractive multibeam element of the array comprising a plurality of diffraction gratings configured to couple out from the light guide a portion of the guided light as a plurality of coupled-out light beams having different principal angular directions corresponding to respective view directions of a multiview display comprising multiview pixels, each diffractive multibeam element being sized between about 50% and about 150% of a size of a sub-pixel in a multiview pixel of the multiview display, boundaries of adjacent diffractive multibeam elements being spaced apart from one another by an exclusion region that is devoid of diffractive multibeam elements, the exclusion region being sized greater than about 50% of the sub-pixel size. 2. The diffractive multiview backlight of claim 1 , wherein a relationship between the diffractive multibeam elements of the array and corresponding multiview pixels of the multiview display is a one-to-one relationship. 3. The diffractive multiview backlight of claim 1 , wherein an inter-element distance between a pair of diffractive multibeam elements of the array is equal to an inter-pixel distance between a corresponding pair of multiview pixels. 4. The diffractive multiview backlight of claim 1 , wherein a diffractive multibeam element of the array comprises: a first diffraction grating having first diffraction features that have a first pitch; and a second diffraction grating having second diffraction features that have a second pitch that differs from the first pitch. 5. The diffractive multiview backlight of claim 1 , wherein a shape of the diffractive multibeam element is analogous to a shape of the multiview pixel. 6. The diffractive multiview backlight of claim 1 , wherein the diffractive multibeam element is located one of at a first surface and at a second surface of the light guide, the diffractive multibeam element being configured to couple out the guided light portion through the first surface. 7. The diffractive multiview backlight of claim 1 , wherein the plurality of diffractive gratings of the diffractive multibeam element comprises a first diffraction grating configured to provide a first light beam of the plurality of coupled-out light beams and a second diffraction grating configured to provide a second light beam of the plurality of coupled-out light beams, the first light beam and the second light beam having different principal angular directions from one another. 8. The diffractive multiview backlight of claim 7 , wherein the first diffraction grating is coextensive with at least a portion of the second diffraction grating. 9. The diffractive multiview backlight of claim 7 , wherein the first diffraction grating is independent from and adjacent to the second diffraction grating within the diffractive multibeam element. 10. The diffractive multiview backlight of claim 1 , wherein a density of diffraction gratings within the diffraction grating plurality is different for respective different diffractive multibeam elements of the array, the different densities are configured to control a relative intensity of the plurality of coupled-out light beams. 11. The diffractive multiview backlight of claim 1 , further comprising a light source optically coupled to an input of the light guide, the light source being configured to provide the light to the light guide, the guided light one or both of having a non-zero propagation angle and being collimated according to a predetermined collimation factor. 12. The diffractive multiview backlight of claim 1 , wherein a combination of the light guide and the diffractive multibeam element array is configured to be substantially optically transparent through the light guide in a direction orthogonal to the propagation direction of the guided light. 13. A multiview display comprising the diffractive multiview backlight of claim 1 , the multiview display further comprising an array of light valves configured to modulate light beams of the coupled-out light beam plurality, a light valve of the light valve array corresponding to the sub-pixel, a set of light valves of the light valve array corresponding to the multiview pixel of the multiview display. 14. A multiview display comprising: an array of multiview pixels configured to provide a plurality of different views of the multiview display, a multiview pixel comprising a plurality of sub-pixels configured to modulate a corresponding plurality of coupled-out light beams; a light guide configured to guide light; and an array of diffractive multibeam elements, a diffractive multibeam element of the element array comprising a plurality of diffraction gratings configured to diffractively couple out a portion of the guided light as the plurality of coupled-out light beams corresponding to the plurality of sub-pixels, the coupled-out light beams having different principal angular directions corresponding to different view directions of respective different views of the plurality of different views of the multiview display, a size of each diffractive multibeam element being between about 50% and about 150% of a size of a sub-pixel of the sub-pixel plurality, boundaries of adjacent diffractive multibeam elements being spaced apart from one another by an exclusion region of the light guide that is devoid of diffractive multibeam elements, the exclusion region being sized greater than about 50% of the sub-pixel size. 15. The multiview display of claim 14 , wherein the size of the diffractive multibeam element is greater than one half of the sub-pixel size and less than twice the sub-pixel size. 16. The multiview display of claim 14 , wherein the plurality of diffractive gratings of the diffractive multibeam element comprises a first diffraction grating configured to provide a first light beam of the plurality of coupled-out light beams and a second diffraction grating configured to provide a second light beam of the plurality of coupled-out light beams, the first light beam and the second light beam having different principal angular directions from one another. 17. The multiview display of claim 16 , wherein the first diffraction grating is independent from and adjacent to the second diffraction grating within the diffractive multibeam element. 18. The multiview display of claim 14 , further comprising a light source configured to provide the light to the light guide, the guided light having a non-zero propagation angle and being collimated according to a collimation factor to provide a predetermined angular spread of the guided light within the light guide. 19. The multiview display of claim 14 , wherein the multiview pixel of the multiview pixel array comprises a set of light valves, a sub-pixel of the multiview pixel comprising a light valve of the set. 20. A method of diffractive multiview backlight operation, the method comprising: guiding light in a propagation direction along a length of a light guide; and diffractively coupling a portion of the guided light out of the light guide using an array of diffractive multibeam elements to provide a plurality of coupled-out light beams having different principal angular directions corresponding to respective different view directions of a multiview display, each dif