Reflector orientation of geometrical and mixed waveguide for reducing grating conspicuity for near-eye displays

What is claimed is: 1. A waveguide display system comprising: a waveguide; an input coupler configured to couple display light into the waveguide; a first pupil expander; and a second pupil expander, wherein the first pupil expander is configured to deflect, at a first plurality of locations along a first direction, the display light towards the second pupil expander, wherein the second pupil expander is configured to deflect, at a second plurality of locations along a second direction different from the first direction, the display light from the first pupil expander towards an eyebox of the waveguide display system, and wherein at least one of the first pupil expander or the second pupil expander includes transflective mirrors that are tilted within the waveguide such that the transflective mirrors are inconspicuous when viewed from an oblique angle. 2. The waveguide display system of claim 1 , wherein the first pupil expander includes transflective mirrors that are tilted within the waveguide at an angle between 40° and 60° with respect to a broadside surface of the waveguide. 3. The waveguide display system of claim 1 , wherein the second pupil expander includes transflective mirrors that are tilted within the waveguide at an angle between 25° and 35° with respect to a broadside surface of the waveguide. 4. The waveguide display system of claim 1 , wherein the transflective mirrors are characterized by different respective reflection efficiencies. 5. The waveguide display system of claim 1 , wherein at least one of the input coupler, the first pupil expander, or the second pupil expander includes multiplexed volume Bragg gratings. 6. The waveguide display system of claim 5 , wherein the multiplexed volume Bragg gratings include reflective diffraction gratings or transmissive diffraction gratings. 7. The waveguide display system of claim 1 , wherein the input coupler includes a volume Bragg grating, a surface-relief grating, a prism, or a reflective surface. 8. The waveguide display system of claim 1 , wherein each transflective mirror of the transflective mirrors includes a plurality of dielectric coating layers. 9. The waveguide display system of claim 1 , wherein a width of a light beam reflected by each transflective mirror of the transflective mirrors is larger than a half of a thickness of the waveguide. 10. The waveguide display system of claim 1 , wherein each transflective mirror of the transflective mirrors is characterized by a full-width half-magnitude (FWHM) reflection angular range greater than 40°. 11. The waveguide display system of claim 1 , wherein at least one transflective mirror of the transflective mirrors is characterized by a reflectivity greater than 50%. 12. The waveguide display system of claim 1 , wherein: the input coupler includes a first volume Bragg grating characterized by a first grating vector; the second pupil expander includes a second volume Bragg grating characterized by a second grating vector; and the first grating vector and the second grating vector have a same component in a plane parallel to a broadside surface of the waveguide. 13. The waveguide display system of claim 1 , wherein the first pupil expander and the second pupil expander at least partially overlap when viewed in a surface normal direction of the waveguide. 14. The waveguide display system of claim 1 , further comprising a deflector configured to deflect the display light from the input coupler towards the first pupil expander. 15. The waveguide display system of claim 14 , wherein: the deflector includes a first group of one or more reflective and/or transflective mirrors having a first orientation; and the first pupil expander includes a second group of one or more reflective and/or transflective mirrors having the first orientation. 16. The waveguide display system of claim 1 , wherein: the input coupler includes a first group of one or more reflective and/or transflective mirrors having a first orientation; and the second pupil expander includes a second group of one or more reflective and/or transflective mirrors having the first orientation. 17. A near-eye display system comprising: a waveguide transparent to display light; an input coupler configured to couple the display light into the waveguide, the input coupler including a first group of one or more reflective and/or transflective mirrors having a first orientation; a first pupil expander; and a second pupil expander, wherein the first pupil expander is configured to deflect, at a first plurality of locations along a first direction, the display light from the input coupler towards the second pupil expander, the first pupil expander including a second group of one or more reflective and/or transflective mirrors having a second orientation; and wherein the second pupil expander is configured to deflect, at a second plurality of locations along a second direction different from the first direction, the display light from the first pupil expander towards an eyebox of the near-eye display system, the second pupil expander including a third group of one or more reflective and/or transflective mirrors having the first orientation.