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The present invention provides an optical system that includes an array of opto-electronic devices, an array of micro lenses, and a fore optic. The array of opto-electronic devices lie substantially along a plane, but the fore optic has a non-planar focal field. To compensate for the non-planar foca

The present invention provides an optical system that includes an array of opto-electronic devices, an array of micro lenses, and a fore optic. The array of opto-electronic devices lie substantially along a plane, but the fore optic has a non-planar focal field. To compensate for the non-planar focal field of the fore optic, each opto-electronic device has a corresponding micro lens. Each micro lens has a focal length and/or separation distance between it and it respective opto-electronic device, which compensates for the non-planar focal field of the fore optic. The focal lengths of these lenses may differ relative to one another. As a result, light that is provided by the fore optic is reconfigured by the micro lenses having various focal lengths to be substantially focused along the plane of the array of opto-electronic devices. Various arrangements of microlenses, placing lenses on standoffs or posts, forming of optical waveguides, lens fabrication, wafer integration of micro-optics, and optical coupling are noted.

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1. An optical system, comprising:a plurality of opto-electronic devices situated substantially in a plane; a fore optic, having an optical axis, situated proximate to said plurality of opto-electronic devices; and a plurality of micro lenses situated between said plurality of opto-electronic devices

1. An optical system, comprising:a plurality of opto-electronic devices situated substantially in a plane; a fore optic, having an optical axis, situated proximate to said plurality of opto-electronic devices; and a plurality of micro lenses situated between said plurality of opto-electronic devices and said fore optic; and wherein: each micro lens of said plurality of micro lenses is situated on a post. 2. The system of claim 1, wherein:said fore optic has a non-planar focal field; and each micro lens has focal length at least partially determined by a dimension of a respective post, to substantially planarize the non-planar focal field of said fore optic. 3. The system of claim 2, wherein each post is situated on an opto-electronic device of said plurality of opto-electronic devices.4. The system of claim 3, wherein said plurality of opto-electronic devices is a plurality of opto-electronic emitters and/or detectors.5. The system of claim 4, wherein each opto-electronic emitter is a VCSEL.6. The system of claim 4, wherein each opto-electronic detector is a RCPD.7. The system of claim 4, wherein each opto-electronic emitter is an LED.8. The system of claim 4, wherein each opto-electronic detector is CCD.9. The system of claim 2, wherein the focal length of each micro lens of said plurality of micro lenses increases with a distance increase away from the optical axis of said fore optic.10. The system of claim 2, wherein the focal length of each micro lens is set for focus or relaying light between the said fore optic having the non-planar field, and a corresponding opto-electronic device.11. The system of claim 2, wherein the optical axis of said fore optic is centered along a center axis of said plurality of opto-electronic devices.12. The system of claim 2, wherein the optical axis of said fore optic is offset from a center axis of said plurality of opto-electronic devices.13. A method for compensating for a non-planar focal field of a fore optic used in an optical system having a plurality of opto-electronic devices, comprising:providing a plurality of opto-electronic devices substantially in a plane; providing a fore optic having an optical axis; providing a plurality of micro lenses situated on a plurality of posts; setting the lengths of said plurality of posts to at least partially adjust the focal lengths of the plurality of micro lenses to compensate for the non-planar focal field of the fore optic. 14. The method of claim 13, wherein the plurality of the opto-electronic devices is a plurality of opto-electronic emitters and/or detectors.15. The method of claim 14, wherein the opto-electronic emitters are VCSELs.16. The method of claim 14, wherein the opto-electronic detectors are RCPDs.17. The method of claim 14, wherein the opto-electronic emitters are LEDs.18. The method of claim 14, wherein the opto-electronic detector are CCDs.19. The method of claim 14, wherein the opto-electronic detectors are CCDs.20. The method of claim 13, wherein the focal length of each micro lens of the plurality of micro lenses increases with a distance increase away from the optical axis of the fore optic.21. The method of claim 13, wherein the focal length of each micro lens is set for each micro lens to focus or relay light between the fore optic having the non-planar focal field, and a corresponding opto-electronic device.22. The method of claim 13, wherein the optical axis of the fore optic is centered along a center axis of the plurality of opto-electronic devices.23. The method of claim 13, wherein the optical axis of the fore optic is offset from a center axis of the plurality of opto-electronic devices.24. An optical system comprising:an array of opto-electronic devices situated substantially in a plane; a fore optic having a non-planar focal field, proximate to said array of opto-electronic devices; an array of micro lenses situated between said fore optic and said array of opto-electronic devices; and an array of spacers situated between said array of micro lenses and said array of opto-electronic devices; and wherein: each spacer provides a separation distance between each micro lens and each opto-electronic device; and the separation distance at least partially compensates for the non-planar focal field of said fore optic. 25. The system of claim 24, wherein the separation distance of each micro lens tracks the non-planar focal field of said fore optic to substantially planarize the focal field.26. The system of claim 24, wherein each micro lens has a focal length related to its separation distance.27. An optical system comprising:a fore optic having a non-planar focal field; a plurality of substantially optically transparent posts situated on a first surface of a first substrate; a plurality of micro lenses situated on said plurality of posts; and wherein: focal lengths of said plurality of said micro lenses are at least partially determined by distances of said plurality of posts between the micro lenses and the first surface of said first substrate; and the focal lengths of said plurality of said micro lenses are such as to compensate the non-planar focal field of said fore optic into a substantially planar focal field. 28. The optical system of claim 27, wherein:a second surface of said first substrate is substantially planar; and the focal field of the fore optic is substantially planar at the second surface of said first substrate. 29. The optical system of claim 28, further comprising:a plurality of opto-electronic devices situated on a first surface of a second substrate; and wherein the first surface of the second substrate is substantially planar. 30. The optical system of claim 29, wherein the second surface of the first substrate is attached to the first surface of the second substrate.31. The optical system of claim 29, wherein the second surface of the first substrate is bonded to the first surface of the second substrate.32. Means for planarizing a focal field, comprising:means for focusing light having a non-planar focal field; and means for substantially planarizing the focal field; and wherein: said means for substantially planarizing comprises means for focusing in increments; the focusing in increments has various focal lengths for substantially planarizing the focal field; and the various focal lengths are at least partially provided by various supports for means for focusing. 33. The means of claim 32, further comprising means for supporting various length supports.34. The means of claim 33, further comprising means for emitting and/or detecting light proximate to said means for substantially planarizing the focal field.35. The means of claim 34, wherein said means for supporting various length supports has a substantially planar surface adjacent to said means for emitting and/or detecting light.36. The means of claim 35, wherein said means for emitting and/or detecting light has a substantially planar surface adjacent to the substantially planar surface of said means for supporting various length supports.