Head-mounted display apparatus employing one or more fresnel lenses

What is claimed is: 1. A head-mounted display apparatus comprising: (I) a frame adapted to be mounted on a head of a nominal user; (II) an image display system supported by the frame and comprising at least one light-emitting surface; (III) a free-space, ultra-wide angle, non-diffractive, and reflective optical surface supported by the frame, the reflective optical surface being a continuous surface and configured to converge light toward an eye of the nominal user; and (IV) a Fresnel lens system supported by the frame, the Fresnel lens system being configured to receive light emitted by the image display system directly from the image display system without any intervening optical component between the Fresnel lens system and the image display system and to refract the light in a direction toward the free-space, ultra-wide angle, reflective optical surface, the Fresnel lens system being positioned outside of a path of the light between the reflective optical surface and the eye of the nominal user, a Fresnel lens element of the Fresnel lens system comprising a first side comprising a non-planar curved surface having concentric rings and a second side comprising a non-planar continuous surface; and wherein the free-space, ultra-wide angle, reflective optical surface receives the light directly from the Fresnel lens element of the Fresnel lens system with no intervening optical component in a path of the light from the Fresnel lens element and the reflective optical surface, wherein the reflective optical surface and the Fresnel lens system produce spatially-separated virtual images of spatially-separated portions of the at least one light-emitting surface, at least one of the spatially-separated virtual images being angularly separated from at least one other of the spatially-separated virtual images by at least 100 degrees, the angular separation being measured from a center of rotation of the eye of the nominal user. 2. The head-mounted display apparatus of claim 1 wherein the at least one of the spatially-separated virtual images is angularly separated from the at least one other of the spatially-separated virtual images by at least 150 degrees and wherein the angular separation is up to a widest field of view for a direction of gaze. 3. The head-mounted display apparatus of claim 2 wherein the angular separation up to a widest field of view for a direction of gaze is about 200 degrees. 4. The head-mounted display apparatus of claim 1 wherein the at least one of the spatially-separated virtual images is angularly separated from the at least one other of the spatially-separated virtual images by at least 200 degrees and wherein the angular separation is up to a widest field of view of a direction of gaze. 5. The head-mounted display apparatus of claim 1 wherein the free-space, ultra-wide angle, reflective optical surface is semi-transparent. 6. The head-mounted display apparatus of claim 1 wherein the Fresnel lens system is configured to at least partially collimate light emitted from the image display device's light-emitting surface. 7. The head-mounted display apparatus of claim 1 wherein the free-space, ultra-wide angle, reflective optical surface is configured to partially collimate light emitted from the image display device's light-emitting surface. 8. The head-mounted display apparatus of claim 1 wherein the Fresnel lens element is concave towards the free-space, ultra-wide angle, reflective optical surface. 9. The head-mounted display apparatus of claim 1 wherein the Fresnel lens system comprises a plurality of Fresnel lens elements in a stacked configuration. 10. The head-mounted display apparatus of claim 1 wherein the Fresnel lens system comprises at least one Fresnel lens element having a plurality of facets that are separated from another by edges wherein at least some of the edges lie along radial lines that (i) pass through a center of rotation of the eye of the nominal user, or (ii) pass through the center of a natural lens of the eye of the nominal user, or (iii) are normal to a surface of a cornea of the eye of the nominal user. 11. The head-mounted display apparatus of claim 1 wherein the angular separation up to a widest field of view for a direction of gaze is about 200 degrees. 12. The head-mounted display apparatus of claim 1 , wherein the free-space, ultra-wide angle, reflective optical surface is a non-planar surface, and is further configured to reflect and converge light received from the at least one light-emitting surface toward one eye of the nominal user; and the angular separation of the at least one of the spatially-separated virtual images and the at least one other of the spatially-separated virtual images being measured from the center of rotation of the one eye of the nominal user. 13. A head-mounted display apparatus comprising: (I) a frame adapted to be mounted on a head of a nominal user; (II) an image display system supported by the frame; (III) a non-diffractive and continuous reflective surface supported by the frame; and (IV) a Fresnel lens system supported by the frame, the Fresnel lens system being configured to receive light emitted by the image display system directly from the image display system without any intervening optical component between the Fresnel lens system and the image display system and to refract light emitted by the image display system toward the reflective surface, the Fresnel lens system positioned outside of a path of the light between the reflective surface and an eye of the nominal user, a Fresnel lens element of the Fresnel lens system comprising a first side comprising a non-planar curved surface having concentric rings and a second side comprising a non-planar continuous surface. 14. The head-mounted display apparatus of claim 13 wherein the reflective surface and the Fresnel lens system provide a field of view to the nominal user of at least 100 degrees and up to a widest field of view for a direction of gaze. 15. The head-mounted display apparatus of claim 14 wherein the angular separation up to a widest field of view for a direction of gaze is about 200 degrees. 16. The head-mounted display apparatus of claim 13 wherein the reflective surface is semi-transparent. 17. The head-mounted display apparatus of claim 13 wherein the Fresnel lens system is configured to at least partially collimate light emitted from the image display system. 18. The head-mounted display apparatus of claim 13 wherein the reflective surface is configured to partially collimate light emitted from the image display system. 19. The head-mounted display apparatus of claim 13 wherein the Fresnel lens element is concave towards the reflective surface. 20. The head-mounted display apparatus of claim 13 wherein the Fresnel lens element comprises a plurality of facets that are separated from another by edges wherein at least some of the edges lie along radial lines that (i) pass through a center of rotation of the eye of the nominal user, or (ii) pass through a center of natural lens of the eye of the nominal user, or (iii) are normal to a surface of a cornea of the eye of the nominal user. 21. A head-mounted display apparatus comprising: (I) a frame adapted to be mounted on a head of a nominal user; (II) an image display system supported by the frame; and (III) a Fresnel lens system supported by the frame; wherein: the Fresnel lens system comprises at least two Fresnel lens elements in a stacked configuration through which li