Curved staircase waveguide element, personal display device and method of producing an image

The invention claimed is: 1. A diffractive waveguide element, the waveguide element comprising: a waveguide region having a generally curved shape defined by two optical surfaces between which light can propagate by total internal reflections, the two optical surfaces having a concave optical surface with a first staircase profile and a convex optical surface with a second staircase profile, the first staircase profile and second staircase profile each having discrete steps that define the generally curved shape of the waveguide region, and at least one diffractive optical element capable of modifying the light field within the waveguide region via diffraction. 2. The waveguide element according to claim 1 , wherein the generally curved shape is a spherical or aspherical shape. 3. The waveguide element according to claim 1 , wherein the first and second staircase profiles each comprises a plurality of principal surfaces at which said total internal reflections occur and intermediate surfaces between the principal surfaces. 4. The waveguide element according to claim 3 , wherein at least some of the principal surfaces are planar. 5. The waveguide element according to claim 3 , wherein at least some of the principal surfaces are curved as spherical or aspherical. 6. The waveguide element according to claim 5 , wherein the waveguide region has the generally curved shape and the principal surfaces have curvature in the opposite direction than the curvature of said generally curved shape. 7. The waveguide element according to claim 5 , wherein the waveguide region has the generally curved shape and the principal surfaces have curvature in the same direction as the curvature of said generally curved shape. 8. The waveguide element according to claim 3 , wherein at least some of the intermediate surfaces have a lower transmittance than the principal surfaces. 9. The waveguide element according to claim 3 , wherein the intermediate surfaces are at essentially right angles with respect to the neighboring principal surfaces. 10. The waveguide element according to claim 3 , wherein at least most of the intermediate surfaces are at slanted angles with respect to the neighboring principal surfaces. 11. The waveguide element according to claim 3 , wherein the principal surfaces are shaped as parts of a continuous surface as a spherical surface or lens surface having a focal distance. 12. The waveguide element according to claim 3 , wherein the intermediate surfaces are parallel to each other. 13. The waveguide element according to claim 1 , wherein the waveguide element has an outer surface and the optical surface(s) having said staircase profile forms at least part of said outer surface. 14. The waveguide element according to claim 1 , wherein the waveguide element has an outer surface having a continuous surface profile, and the two optical surfaces having said first and second staircase profiles are at least partly separated from said outer surface by a layer of material. 15. The waveguide element according to claim 14 , wherein said two optical surfaces defining the waveguide region are formed by hollows in said material, the hollows defining principal surfaces of the staircase profile. 16. The waveguide element according to claim 15 , wherein said layer of material has the same refractive index as the waveguide region. 17. The waveguide element according to claim 1 , wherein the at least one diffractive optical element comprises: an in-coupling grating for coupling light rays directed thereto from outside of the waveguide region into the waveguide region, and/or an out-coupling grating for coupling light rays travelling inside the waveguide region outside of the waveguide, and/or an exit pupil expander grating for extending the exit pupil of light travelling within the waveguide region. 18. The waveguide element according to claim 1 , wherein the diffractive optical element is arranged on said optical surface or in the waveguide region. 19. The waveguide element according to claim 1 , wherein the waveguide element is made from transparent material and adapted to allow light to pass the waveguide element essentially transversely to propagation direction of light in the waveguide region. 20. The waveguide element according to claim 1 , wherein the waveguide region comprises a plurality of waveguide layers at least one of which extends as a continuous layer over at least one stair of at least one of the first or second staircase profiles, and there is provided at least one intermediate diffractive optical element between said layers for changing propagating light power distribution between said layers. 21. A waveguide stack comprising a plurality of waveguide elements according to claim 1 , superimposed on top of each other. 22. The stack according to claim 21 , wherein: optical surfaces of at least two of the elements have different curvatures, and each of the curvatures corresponds to a different focal plane. 23. A personal display device comprising: the waveguide element according to claim 1 , and an image projector adapted to project an image to the waveguide element or waveguide stack for propagation with the waveguide region. 24. The personal display device according to claim 23 , comprising at least two diffractive gratings, one of which is an in-coupling grating positioned at a first region of the waveguide element, and one of which is an out-coupling grating positioned at a second region of the waveguide element, wherein: the image projector is adapted to project the image on the in-coupling grating for coupling to the waveguide region, and the out-coupling grating is adapted to couple the image out of the waveguide region to a viewer's eye at a distance from the waveguide element. 25. The personal display device according to claim 23 , wherein the waveguide element is shaped as a curved corrective or non-corrective lens or placed on top of a curved corrective or non-corrective lens following its shape. 26. The personal display device according to claim 23 , wherein the waveguide element or waveguide stack is provided in a spectacle form factor. 27. A method of forming a viewable image in a near-to-the-eye display, comprising: providing a waveguide element or waveguide stack according to claim 1 , projecting an image to an in-coupling grating arranged on a first region of the waveguide element or waveguide stack, allowing light to propagate inside the waveguide region or region along the staircase profile, and coupling light out of the waveguide by an out-coupling grating arranged on a second region of the waveguide element or waveguide stack.