Buttressed haptic

What is claimed is: 1. A haptic for supporting an intraocular lens (IOL) in an eye, wherein said IOL changes its focal distance using the eye's natural mechanism of ciliary body muscle tension, so that relaxation of the ciliary muscle in the eye causes an anterior force to act on the IOL, altering its focusing power, said haptic comprising a foldable solid sheet of material in the shape of an anterior facing inverted dome, or a portion of a dome, having an outer flange configured to fit snugly into the ciliary sulcus such that the dome curvature provides for continuous positional contact of the outer flange with overlying tissue comprising iris root, ciliary body, and overlying sclera, to provide, in response to the anterior force, a balancing posterior force, wherein said sheet has sufficient thickness to allow adequate stiffness of the haptic structure to transfer the anterior force to the posterior surface of the lens to alter its shape and power, and prevent axial and rotational buckling, and wherein said sheet is of a size that when said sheet is inserted in the ciliary sulcus, the sheet is buttressed by the overlying tissue on the anterior side to prevent the IOL from buckling or moving in the eye by the anterior force. 2. The haptic of claim 1 , wherein said haptic forms an integral body with the IOL. 3. The haptic of claim 1 , wherein said haptic permits radial tension exerted by zonules in the eye caused by relaxation of the ciliary muscle to provide anterior vectored force on the lens to alter the lens power. 4. The haptic of claim 1 , wherein said haptic is kept in place in the eye substantially without migration by adhesive force between the haptic and eye tissue in contact with the haptic, without need to anchor the haptic by penetration into eye tissue. 5. The haptic of claim 1 , wherein when the sheet is inserted in the ciliary sulcus, the sheet is buttressed by the iris root, the ciliary body and the overlying sclera of the eye to counter the anterior force exerted by the zonules when the ciliary muscle is relaxed. 6. The haptic of claim 1 , wherein said sheet has a thickness of 300 microns to 1 mm. 7. The haptic of claim 1 , wherein location of said IOL does not change substantially when the ciliary muscle relaxes. 8. A haptic for supporting an intraocular lens (IOL) in an eye, wherein said IOL changes its focal distance using the eye's natural mechanism of ciliary body muscle tension, so that relaxation of the ciliary muscle in the eye causes an anterior force to act on the IOL, altering its focusing power, said haptic comprising a solid sheet of material in the shape of a butterfly with two anteriorly-curving wing portions each having an outer flange configured to fit snugly into the ciliary sulcus such that the curvature provides for continuous positional contact of the outer flange with overlying tissue comprising iris root, ciliary body, and overlying sclera, to buttress the haptic and provide, in response to the anterior force, a balancing posterior force to prevent anterior/posterior dislocation of the IOL in the eye, wherein said sheet has sufficient thickness and the two wing portions are each of an angular extent to allow adequate stiffness of the haptic structure to transfer the anterior force to the posterior surface of the lens to alter its shape and power, and to prevent axial and rotational buckling. 9. The haptic of claim 8 , said sheet having a thickness of 300 microns to 1 mm and each of said flanges of the two wing portions subtending an angle of not less than 40 degrees at a center of the sheet, to prevent axial and rotational buckling of the sheet caused by said anterior force. 10. The haptic of claim 8 , wherein the flanges are buttressed by the overlying tissue on the anterior side to prevent the IOL from buckling or moving in the eye by the anterior force. 11. The haptic of claim 8 , wherein said sheet is curved in shape and permits radial tension exerted by zonules in the eye from relaxation of the ciliary muscle to provide anterior vectored force on the lens to alter the lens power. 12. A haptic for supporting an intraocular lens (IOL) in an eye, wherein said IOL changes its focal distance using the eye's natural mechanism of ciliary body muscle tension, so that relaxation of the ciliary muscle in the eye causes an anterior force to act on the IOL, altering its focusing power, said haptic comprising a curved foldable solid sheet of material in the shape of a butterfly with two anteriorly-curving wing portions each having an outer flange, wherein when said sheet is inserted in the ciliary sulcus, said flanges of the two wing portions fit snugly into the ciliary sulcus such that the curvature provides for continuous positional contact of the outer flange with overlying tissue comprising iris root, ciliary body, and overlying sclera, to buttress the haptic and provide, in response to the anterior force, a balancing posterior force to prevent anterior/posterior dislocation of the IOL in the eye, wherein said sheet has sufficient thickness to allow adequate stiffness of the haptic structure to transfer the anterior force to the posterior surface of the lens to alter its shape and power, and prevent axial and rotational buckling, and wherein said haptic is kept in place in the eye substantially without migration by adhesive force between the two flanges and eye tissue in contact with the haptic, without need to anchor the haptic by penetration into eye tissue. 13. The haptic of claim 12 , wherein said sheet is made of a biocompatible material. 14. The haptic of claim 12 , wherein said sheet is made of a material that has memory. 15. The haptic of claim 12 , wherein said sheet is made of a foldable biocompatible material that includes a material currently utilized for making the IOL. 16. The haptic of claim 15 , wherein said sheet is made of a material that includes acrylic or silicone.