Intraocular lens with rotational resistance and negative dysphotopsia mitigation

1 .- 17 . (canceled) 18 . A method of implanting an intraocular lens into a capsular bag of an eye, the method comprising: creating a capsulorhexis in an anterior portion of the capsular bag; removing the natural lens from the capsular bag; and inserting the intraocular lens into the capsular bag, wherein the intraocular lens comprises an anterior optic surface having a peripheral optic disposed within the capsular bag, a capsule rim adjacent to an edge of the capsulorhexis, and a central optic disposed within the capsulorhexis and substantially flush with the capsular bag. 19 . The method of claim 18 , wherein the central optic has a width larger than a width of the capsulorhexis to create tension in the capsulorhexis. 20 . The method of claim 18 , wherein the peripheral optic comprises a textured surface configured to scatter light transmission. 21 . The method of claim 18 , wherein the capsule rim has a first width, the central optic has a second width, and the second width is less than or equal to the first width. 22 . The method of claim 18 , wherein the central optic has an optical axis, and the capsule rim forms a surface that is substantially parallel to the optical axis. 23 . An ophthalmic lens for implanting in an eye, the ophthalmic lens comprising: a posterior optic surface; and an anterior optic surface comprising a central optic, a peripheral optic, and a capsule rim separating the central optic and the peripheral optic; wherein the capsule rim has a first width, the central optic has a second width, and the second width is less than or equal to the first width. 24 . The ophthalmic lens of claim 23 , wherein the central optic has an optical axis, and the capsule rim forms a surface that is substantially parallel to the optical axis. 25 . The ophthalmic lens of claim 23 , wherein the capsule rim is adapted to be disposed adjacent to an edge of a capsulorhexis so that the central optic is substantially flush with a capsular bag of the eye. 26 . The ophthalmic lens of claim 23 , wherein the capsule rim is symmetric. 27 . The ophthalmic lens of claim 23 , wherein the capsule rim is asymmetric. 28 . The ophthalmic lens of claim 23 , wherein the capsule rim forms a surface at an angle of at least 90 degrees to the peripheral optic. 29 . The ophthalmic lens of claim 23 , wherein the central optic comprises an optic axis and the capsule rim forms a surface that is substantially parallel to the optic axis. 30 . The ophthalmic lens of claim 23 , wherein the capsule rim has a thickness in a range of about 19 micrometers to about 20 micrometers. 31 . The ophthalmic lens of claim 23 , wherein the capsule rim has a thickness substantially equal to a thickness of an anterior capsular bag. 32 . The ophthalmic lens of claim 23 , wherein the capsule rim has a radius in a range of about 2 millimeters to about 3 millimeters. 33 . The ophthalmic lens of claim 23 , wherein the peripheral optic comprises a textured surface. 34 . The ophthalmic lens of claim 33 , wherein the textured surface is configured to diffuse light. 35 . The ophthalmic lens of claim 23 , further comprising a transition band configured to diffuse or redirect light. 36 . The ophthalmic lens of claim 23 , wherein the central optic is recessed. 37 . The ophthalmic lens of claim 23 , further comprising at least two haptics coupled to the peripheral optic. 38 . The ophthalmic lens of claim 23 , wherein the capsule rim is configured to sequester an edge of a capsulorhexis opening.