Methods and apparatus for ophthalmic devices including cycloidally oriented liquid crystal layers

The invention claimed is: 1. A contact lens device with a variable optic insert positioned within at least a portion of an optical zone of the contact lens device, wherein the variable optic insert comprises: a curved front surface and a curved back surface, wherein the front surface and the back surface are configured to bound at least a portion of one chamber; an energy source embedded in the variable optic insert in at least a region comprising a non-optical zone; and a layer containing liquid crystal material positioned within the at least one chamber, wherein the layer includes regions of liquid crystal material aligned in a pattern across at least a first portion of the variable optic insert that varies with a cycloidal pattern, wherein locations of orientations in liquid crystal orientation aligning with a radial axis across at least a first portion of the optic insert has a parabolic dependence on a radial dimension. 2. The contact lens device of claim 1 wherein the layer containing liquid crystal material and varying with the cycloidal pattern assumes a curved shape. 3. The contact lens device of claim 2 wherein the lens includes a polarizing component. 4. The contact lens device of claim 2 further comprising: a first layer of electrode material proximate to the curved back surface; and a second layer of electrode material proximate to the curved front surface. 5. The contact lens device of claim 4 wherein at least a portion of the layer containing liquid crystal material varies its index of refraction affecting a ray of light traversing the layer containing liquid crystal material when an electric potential is applied across the first layer of electrode material and the second layer of electrode material. 6. The contact lens device of claim 5 wherein the variable optic insert alters a focal characteristic of the lens. 7. The contact lens device of claim 6 further comprising an electrical circuit, wherein the electrical circuit controls a flow of electrical energy from the energy source to the first and second electrode layers. 8. The contact lens device of claim 7 wherein the electrical circuit comprises a processor. 9. A contact lens device with a variable optic insert positioned within at least a portion of an optical zone of the contact lens device, wherein the variable optic insert comprises: a front curve piece and a back curve piece, wherein a back surface of the front curve piece has a first curvature and a front surface of the back curve piece has a second curvature; an energy source embedded in the insert in at least a region comprising a non-optical zone; and a layer containing liquid crystal material, wherein the layer includes regions of liquid crystal material aligned in a pattern wherein the layer includes regions of liquid crystal material aligned in a pattern across at least a first portion of the variable optic insert that varies with a cycloidal pattern ,wherein locations of orientations in liquid crystal orientation aligning with a radial axis across at least a first portion of the optic insert has a parabolic dependence on a radial dimension. 10. The contact lens device of claim 9 wherein the layer containing liquid crystal material that varies with the cycloidal pattern assumes a curved shape.