Deformable intraocular lenses and lens systems

What is claimed is: 1. An intraocular lens, comprising: a deformable optic disposed about an optical axis comprising a deformable surface; a rigid optic disposed about the optical axis comprising a rigid surface; and a support structure operably coupled to at least one of the optics for pressing the deformable surface and the rigid surface together in response to an ocular force, whereby at least a portion of the deformable surface changes shape, and wherein the deformable optic and the rigid optic are separated by a gap along the optical axis when the deformable optic and the rigid optic are not pressed together; wherein the deformable optic further comprises a relief portion around a periphery of the deformable optic for providing a volume into which a portion of the deformable optic may flow, expand, or enlarge only when the deformable surface is pressed against the rigid surface. 2. The intraocular lens of claim 1 , wherein the intraocular lens has an optical power when the deformable optic and the rigid optic are separated and wherein the optical power is at least 2 Diopters different when the deformable surface and the rigid surface are pressed together. 3. The intraocular lens of claim 1 , wherein the deformable surface and the rigid surface are pressed together when an external ocular force in the range of about 1 to 9 grams is applied to the support structure. 4. The intraocular lens of claim 1 , wherein the deformable surface is in contact with, and conforms to, the rigid surface when the deformable surface and the rigid surface are pressed together. 5. An intraocular lens, comprising: a deformable optic disposed about an optical axis, the deformable optic having a deformable surface; a rigid optic disposed about the optical axis comprising a rigid surface; and a support structure operably coupled to at least one of the optics for pressing the deformable surface and the rigid surface together in the absence of ocular forces, whereby at least a portion of the deformable surface changes shape by increasing or decreasing an area of contact of the deformable and rigid optics adjacent to the optical axis, and wherein the deformable surface and the rigid surface are separated by a gap along the optical axis when the deformable surface and the rigid surface are not pressed together; wherein the deformable optic further comprises a relief portion around a periphery of the deformable optic for providing a volume into which a portion of the deformable optic may flow, expand, or enlarge only when the deformable surface is pressed against the rigid surface. 6. The intraocular lens of claim 5 , wherein the support structure configured to change the shape of the at least a portion in response to an ocular force as the deformable surface moves away from the rigid surface. 7. The intraocular lens of claim 5 , wherein the intraocular lens has an optical power when the deformable optic and the rigid optic are separated and wherein the optical power is at least 2 Diopters different when the deformable surface and the rigid surface are pressed together. 8. The intraocular lens of claim 5 , wherein the deformable surface is in contact with, and conforms to, the rigid surface when the deformable surface and the rigid surface are pressed together. 9. An intraocular lens, comprising: a deformable optic disposed about an optical axis comprising a deformable surface; a rigid optic disposed about the optical axis comprising a rigid surface; and a support structure having a distal end and a proximal end, the proximal end being attached to the deformable optic for producing a force that presses the deformable surface and the rigid surface together and into contact in response to an ocular force such that at least a portion of the deformable surface is deformed and substantially conforms to the shape of the rigid surface, and wherein the deformable surface and the rigid surface are separated by a gap along the optical axis when the deformable surface and the rigid surface are not pressed together; wherein the deformable optic further comprises a relief portion around a periphery of the deformable optic for providing a volume into which a portion of the deformable optic may flow, expand, or enlarge only when the deformable surface is pressed against the rigid surface. 10. The intraocular lens of claim 9 , wherein the intraocular lens has an optical power when the deformable optic and the rigid optic are separated and wherein the optical power is at least 2 Diopters different when the deformable surface and the rigid surface are pressed together. 11. The intraocular lens of claim 9 , wherein the deformable surface and the rigid surface are pressed together when an external ocular force in the range of about 1 to 9 grams is applied to the support structure. 12. An intraocular lens, comprising: a deformable optic disposed about an optical axis comprising a deformable surface; a rigid optic disposed about the optical axis comprising a rigid surface; and a support structure having a distal end and a proximal end, the proximal end being attached to the deformable optic for pressing the deformable surface and the rigid surface together and into contact in an area disposed adjacent the optical axis in response to an ocular force, whereby only a portion of the deformable surface changes shape, and wherein the deformable surface and the rigid surface are separated by a gap along the optical axis when the deformable surface and the rigid surface are not pressed together; wherein the deformable optic further comprises a relief portion around a periphery of the deformable optic for providing a volume into which a portion of the deformable optic may flow, expand, or enlarge only when the deformable surface is pressed against the rigid surface. 13. The intraocular lens of claim 12 , wherein the intraocular lens has an optical power when the deformable optic and the rigid optic are separated and wherein the optical power is at least 2 Diopters different when the deformable surface and the rigid surface are pressed together. 14. The intraocular lens of claim 12 , wherein the deformable surface and the rigid surface are pressed together when an external ocular force in the range of about 1 to 9 grams is applied to the support structure. 15. The intraocular lens of claim 12 , wherein the deformable surface is in contact with, and conforms to, the rigid surface when the deformable surface and the rigid surface are pressed together. 16. An intraocular lens, comprising: a deformable optic disposed about an optical axis comprising a deformable surface; a rigid optic disposed about the optical axis comprising a rigid surface characterized by a radius of curvature; and a support structure having a distal end and a proximal end, the proximal end being attached to the deformable optic; the rigid optic and the deformable optic defining a clear aperture that includes the optical axis and through which light incident upon optics forms a focus; the deformable surface having, within the clear aperture, a first shape and a second shape, the first shape including a surface portion having a finite radial extent and characterized by a radius of curvature unequal to the radius of curvature of the rigid surface, the second shape being characterized over the surface portion by a radius of curvature that is equal to the radius of curvature of the rigid surface; wherein the second shape is provided when the support structure presses the deformable surface and the rigid surface together and brings into contact a portion of the deformable surface