Auto-focus in low-profile folded optics multi-camera system

What is claimed is: 1. An image capture apparatus comprising: means for sensing light; first light folding means positioned to receive the light and redirect the light in a first direction toward the means for sensing; an optical element comprising second light folding means positioned to receive the light from the first light folding means and redirect the light in a second direction toward the means for sensing; means for focusing the light, the means for focusing movably positioned between the first light folding means and the second light folding means; means for moving the means for focusing along the first direction between the first light folding means and the second light folding means; and field correcting means positioned between the second light folding means and the means for sensing light, wherein the means for moving is positioned to contact a portion of the optical element, and wherein the apparatus further comprises a friction reducing means provided between the means for moving and the optical element. 2. The apparatus of claim 1 , further comprising means for capturing an image of a portion of a target scene, the means for capturing comprising the means for sensing, the first light folding means, the second light folding means, the means for focusing, the means for moving, and the field correcting means. 3. The apparatus of claim 2 , further comprising a plurality of the means for capturing, each means for capturing for capturing an image of a different one of a plurality of portions of the target scene. 4. The apparatus of claim 3 , further comprising means for combining the plurality of portions into a final image of the target scene. 5. The apparatus of claim 3 , further comprising means for splitting incoming light representing the target scene into the plurality of portions, the means for splitting comprising the first light folding means of each of the plurality of means for capturing. 6. An image capture system comprising: a plurality of cameras disposed within a housing having an opening for receiving light representing a target image scene, each of the plurality of cameras operable to capture an image of a different one of a plurality of portions of the target scene, each camera of the plurality of cameras comprising: an image sensor; a first reflective surface positioned to redirect light representing one portion of the corresponding plurality of portions of the target scene in a first direction; an optical element having a guide surface, and a second reflective surface positioned to redirect the light from the first reflective surface in a second direction; at least one lens movably positioned between the first and second reflective surfaces; a stationary lens positioned between the optical element and the image sensor, wherein the image sensor, stationary lens, and optical element are bonded into a stack; an actuator operable to move the at least one lens along an optical axis extending between the first and second reflective surfaces; and a guide rail coupled to the actuator and the at least one lens, the guide rail positioned to slidably engage the guide surface to constrain motion of the at least one movable lens away from the optical axis or rotating around the optical axis. 7. The system of claim 6 , the camera further comprising a cover glass affixed to the image sensor between the image sensor and the stationary lens, the stack comprising the cover glass. 8. The system of claim 6 , further comprising a substantially flat substrate, the stack of each of the plurality of cameras coupled to the substrate with the image sensor embedded into a slot in the substrate. 9. The system of claim 6 , further comprising a processor operable to execute instructions for generating a final image of the target scene by at least stitching the plurality of portions into a stitched image and cropping the stitched image into the final image. 10. The system of claim 6 , wherein the guide rail slidably engages the guide surface of the optical element. 11. The system of claim 6 , further comprising a substantially flat substrate, the image sensor of each of the plurality of cameras positioned on or within a slot of the substantially flat substrate, and wherein the actuator is coupled to the substrate. 12. An image capture system comprising: a plurality of cameras disposed within a housing having an opening for receiving light representing a target image scene, each of the plurality of cameras operable to capture an image of a different one of a plurality of portions of the target scene, each camera of the plurality of cameras comprising: an image sensor; a first reflective surface positioned to redirect light representing one portion of the corresponding plurality of portions of the target scene in a first direction; an optical element having a second reflective surface positioned to redirect the light from the first reflective surface in a second direction; at least one lens movably positioned between the first and second reflective surfaces; and a stationary lens positioned between the optical element and the image sensor, wherein the stationary lens comprises a field corrector lens, and wherein the image sensor, stationary lens, and optical element are bonded into a stack. 13. An image capture device comprising: an image sensor; a first reflective surface positioned to redirect light representing a portion of light representing a target scene in a first direction toward the image sensor; an optical element having an input surface positioned to receive the light from the first reflective surface, a second reflective surface positioned to redirect the light in a second direction toward the image sensor, an output surface through which light redirected by the second reflective surface propagates in the second direction toward the image sensor, and a guide surface opposing the output surface and positioned parallel to a plane formed by the image sensor; at least one lens movably positioned between the first and second reflective surfaces; a guide rail coupled to the at least one lens, the at least one guide rail positioned to slidably engage the guide surface to constrain motion of the at least one movable lens away from the optical axis or rotating around the optical axis; and a stationary lens positioned between the output surface of the optical element and the image sensor, wherein the image sensor, stationary lens, and optical element are bonded into a stack. 14. The device of claim 13 , wherein the stationary lens comprises a field corrector lens. 15. The device of claim 13 , further comprising a cover glass affixed to the image sensor between the image sensor and the stationary lens, the stack comprising the cover glass. 16. The device of claim 13 , further comprising an actuator operable to move the at least one lens along an optical axis extending between the first and second reflective surfaces; and wherein the guide rail is coupled to the actuator. 17. The device of claim 16 , further comprising a friction reducing component between the guide surface and the guide rail.