Imaging with extended depth of focus for use with polycromatic light

The invention claimed is: 1. An imaging lens unit comprising: an imaging lens having a lens region and an effective aperture; and a phase coder located at the imaging lens, the phase coder comprising a surface relief formed by superposition of at least three phase patterns and comprising at least two elongated spaced-apart zones of a thickness different from that within a space between the zones, each phase pattern differently affecting light components of one of at least three different wavelength ranges while substantially not affecting propagation of light components of other of said at least three wavelength ranges, said surface relief affecting light propagation through the lens region to extend a depth of focus for at least one of said at least three wavelength ranges. 2. The imaging lens unit of claim 1 , wherein said phase coder is integral with the imaging lens, said surface relief being that of at least one of surfaces of the lens within said lens region. 3. The imaging lens unit of claim 1 , wherein said phase coder comprises at least one mask attached to at least one surface of the imaging lens within said lens region. 4. The imaging lens unit of claim 1 , wherein said phase coder comprises a mask associated with a surface of the imaging lens within said lens region, said mask having one of the following configurations: (i) being integral with the lens region, (ii) being attached to the lens region, (iii) being spaced-apart from the lens region along an optical axis of the imaging lens. 5. The imaging lens unit of claim 1 , wherein said surface relief is comprises a pattern having features arranged along said lens region, said features having predetermined dimensions along said lens region and along an optical axis of the imaging lens. 6. The imaging lens unit of claim 5 , wherein said surface relief is configured to correspond to a predetermined height profile along the lens region, such that when polychromatic light passes through said lens region, a depth of focus for at least one of said at least three wavelength ranges in said light is extended. 7. The imaging lens unit of claim 6 , wherein said predetermined height profile is such that when polychromatic light passes through said lens region, depths of focus for at least three wavelength ranges in said light are extended. 8. The imaging lens unit of claim 1 , wherein said at least three wavelength ranges correspond to those of primary colors. 9. The imaging lens unit of claim 1 , wherein the phase patterns comprise at least one closed-loop zone. 10. The imaging lens unit of claim 9 , wherein said at least one closed-loop zone has a ring-like geometry. 11. The imaging lens unit of claim 9 , wherein said at least one closed-loop zone has a polygonal geometry. 12. The imaging lens unit of claim 1 , wherein the phase patterns comprise at least two spaced-apart zones. 13. The imaging lens unit of claim 1 , configured for use in ophthalmic application. 14. The imaging lens unit of claim 13 , configured for use as a contact lens. 15. The imaging lens unit of claim 13 , configured for use as intraocular lens. 16. The imaging lens unit of claim 13 , configured for use as spectacles lens. 17. The imaging lens unit of claim 13 , configured for use as an intracorneal lens. 18. An imaging lens unit comprising: an imaging lens having a lens region and an effective aperture; and a phase coder located at the imaging lens, the phase coder comprising a surface relief formed by at least three phase patterns, wherein the phase patterns comprise at least one closed-loop zone having a polygonal geometry, each phase pattern differently affecting light components of one of at least three different wavelength ranges while substantially not affecting propagation of light components of other of said at least three wavelength ranges, said surface relief affecting light propagation through the lens region to extend a depth of focus for at least one of said at least three wavelength ranges. 19. The imaging lens unit of claim 18 , wherein the phase patterns comprise at least two elongated-spaced-apart zones.