Diffractive display, lightguide element and projector therefor, and method for displaying image

The invention claimed is: 1. A multi-pupil lightguide element for a diffractive personal display, comprising: lightguide means, diffractive in-coupling means for coupling an image directed to the in-coupling means into the lightguide means, and diffractive out-coupling means for coupling said image out of the lightguide means, wherein the diffractive in-coupling means comprise at least two in-coupling gratings laterally displaced from each other on said lightguide means for receiving segments of said image, the diffractive out-coupling means is optically associated with said at least two in-coupling gratings for reproducing said image from said image segments, and an exit pupil expander grating for each in-coupling grating, the exit pupil expander gratings being associated with and arranged optically between at least one of said in-coupling gratings and said out-coupling means, for extending the exit pupil of the element, wherein said in-coupling gratings and exit pupil expander gratings are located such that a first in-coupling grating associated with a first exit pupil expander grating laterally overlaps with a second exit pupil expander grating associated with a second in-coupling grating. 2. The element according to claim 1 , wherein the diffractive out-coupling means comprises at least two out-coupling gratings laterally overlapping each other on said lightguide means, the at least two out-coupling gratings being optically associated with said at least two in-coupling gratings, respectively, for reproducing said image from said image segments. 3. The element according to claim 1 , wherein the lightguide means comprise at least two lightguides stacked on top of each other, said in-coupling gratings and said out-coupling means being arranged on said at least two waveguides, respectively. 4. The element according to claim 1 , wherein said in-coupling gratings are laterally displaced with respect to said exit pupil expander gratings. 5. The element according to claim 1 , wherein the element further comprises a first in-coupling grating and associated exit pupil expander grating pair and a second in-coupling grating and associated exit pupil expander grating pair, which is essentially mirror-symmetrically positioned on the lightguide means with respect to the first pair. 6. The element according to claim 1 , wherein the exit pupil expander gratings associated with different in-coupling gratings and out-coupling gratings are essentially aligned with each other. 7. The element according to claim 1 , wherein the element is adapted to reproduce an image with a larger field-of-view on said out-coupling means than the field-of-view of any of said image segments. 8. The element according to claim 1 , wherein said at least two in-coupling gratings are laterally separated by a distance, which is 50% or less of a corresponding dimension the out-coupling grating, such as 0-15 mm, and typically located laterally central along said dimension or in the corner area of the lightguide means, more than 50% of a corresponding dimension the out-coupling grating, such as 15-50 mm, and typically in the vicinity of opposite corners of the lightguide means along said dimension. 9. A personal display device, in particular a near-to-eye display, wherein the device comprises: a multi-pupil lightguide element according to claim 1 for producing an image viewable by the naked eye on the out-coupling means thereof, and a multi-pupil projector capable of projecting at least two different image segments of said image on said at least two in-coupling gratings. 10. The device according to claim 9 , wherein the projector comprises a display panel whose different zones are utilized for producing said different image segments. 11. The device according to claim 9 , wherein said projector is adapted to produce the image on said display panel such that said image segments are in laterally shifted configuration in at least one lateral dimension of the display panel, the segments optionally being separated by a black separating zone for preventing cross-talk between the segments in said projector or on said multi-pupil lightguide element. 12. The device according to claim 9 , wherein the projector comprises a plurality of display panels that are utilized for producing said different image segments. 13. The device according to claim 9 , wherein the out-coupling gratings comprise grating lines oriented in horizontal direction or in vertical direction. 14. The device according to claim 9 , wherein the projector is a projector comprising: at least one display element for displaying an image, at least two exit pupils, and optical means for projecting at least two different segments of said image to said at least two exit pupils, respectively, wherein said display element comprises a non-polarized light source and means for utilizing two different polarization states of said light source for projecting said image segments to said exit pupils. 15. A multi-pupil projector for a diffractive personal display, comprising: at least one display element for displaying an image, at least two exit pupils, and optical means for projecting at least two different segments of said image to said at least two exit pupils, respectively, wherein said display element comprises a non-polarized light source and means for utilizing two different polarization states of said light source for projecting said image segments to said exit pupils. 16. The multi-pupil projector according to claim 15 , wherein the display element comprises a liquid crystal on silicon (LCOS) display panel or the like and an illumination system comprising at least two polarizing beam splitters arranged in sequence for utilizing two different polarization states of light for projecting said at least two different image segments. 17. The multi-pupil projector according to claim 15 , wherein said optical means comprises two successive beam splitters, such as beam splitter cubes or plates, having perpendicular polarization orientations. 18. The multi-pupil projector according to claim 15 , wherein said optical means comprise two successive beam splitters, such as beam splitter cubes or plates, having the same polarization orientation and a half-wavelength waveplate arranged optically between the beam splitters. 19. A method for displaying image on a personal display device, the method comprising: projecting at least two different partial image segments of a total image on at least two diffractive in-coupling gratings laterally displaced from each other on a lightguide means, the in-coupling gratings coupling said image segments to the lightguide means, and guiding the image segments to at least one diffractive out-coupling grating for reproducing said total image from said image segments, wherein the image segments are guided to said at least one out-coupling grating via exit pupil expander gratings, the exit pupil expander gratings being associated with and arranged optically between at least one of said in-coupling gratings and said at least one out-coupling grating for extending the exit pupil of the element, and wherein said in-coupling gratings and exit pupil expander gratings are located such that a first in-coupling grating associated with a first exit pupil expander grating laterally overlaps with a second exit pupil expander grating associated with a second in-coupling grating. 20. The method according to claim 19 , wherein the image segments are guided to