Aspheric optical lenses and associated systems and methods

What is claimed is: 1. An intraocular lens, comprising: a body portion defining an anterior optical surface and an opposing posterior optical surface, the anterior optical surface including: a central region extending radially outward from a center point of the body portion a first distance, the central region having a first asphericity profile, a first outer region extending radially outward from the central region, the first outer region having a second asphericity profile that is different than the first asphericity profile, and a second outer region extending radially outward from the first outer region, the second outer region having a third asphericity profile that is different than the second asphericity profile, wherein each of the central region, the first outer region, and the second outer region have the same base refractive power, wherein the first outer region comprises an annular ring surrounding the central region such that the first outer region has a circular inner boundary defined by the first distance and a circular outer boundary defined by a second distance from the center point, wherein the second outer region comprises an annular ring surrounding the first outer region such that the second outer region has a circular inner boundary defined by the second distance and a circular outer boundary defined by a third distance from the center point, and wherein each of the first asphericity profile, the second asphericity profile, and the third asphericity profile are defined by the following equation: Sag = cr 2 1 + 1 - ( 1 + k ) ⁢ c 2 ⁢ r 2 + α 2 ⁢ r 4 + α 3 ⁢ r 6 , where c, k, α 2 , and α 3 are constants and r is a radius from the center point; wherein each of the first asphericity profile, the second asphericity profile, and the third asphericity profile is characterized by a unique combination of constants c, k, α 2 , and α 3 and wherein at least one of α 2 and α 3 has a different value for each of the first, second, and third asphericity profiles. 2. The lens of claim 1 , wherein each of the central region, the first outer region, and the second outer region have the same conic constant. 3. The lens of claim 2 , further comprising a third outer region extending radially outward from the second outer region, the third outer region having a fourth asphericity profile that is different than the third asphericity profile. 4. The lens of claim 2 , wherein the posterior surface has either a spherical profile or a toric profile. 5. The lens of claim 1 , wherein the first distance is between about 0.25 mm and about 2.0 mm. 6. The lens of claim 5 , wherein the second distance is between about 0.5 mm and about 2.5 mm. 7. The lens of claim 6 , wherein the third distance is between about 2.5 mm and about 3.0 mm. 8. The lens of claim 7 , wherein the circular outer boundary of the second outer region is an outer boundary of the body portion. 9. The lens of claim 1 , wherein c has the same value for each of the first, second, and third asphericity profiles, wherein k has the same value for each of the first, second, and third asphericity profiles, wherein α2 has a different value for each of the first, second, and third asphericity profiles, and wherein α3 has a different value for each of the first, second, and third asphericity profiles. 10. The lens of claim 9 , wherein 1/c=18.990, wherein k=−3.159, wherein α2=6.034E-05 for the first asphericity profile, wherein α2=1.930E-04 for the second asphericity profile, wherein α2=−4.680E-04 for the third asphericity profile, wherein α3=1.164E-05 for the first asphericity profile, wherein α3=−1.527E-04 for the second asphericity profile, and wherein α3=3.541E-06 for the third asphericity profile.