Varifocal optical assembly providing astigmatism compensation

What is claimed is: 1. A varifocal optical assembly comprising: a first liquid crystal lens including a liquid crystal layer disposed between opposing substrates; a first electrode pattern disposed on at least one substrate, wherein the first electrode pattern includes a set of two or more parallel conductors each having a length proportional to the longest dimension of a clear aperture of the liquid crystal lens, wherein adjacent conductors of the set of two or more parallel conductors are separated by a gap and are configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting cylindrical focal power, wherein widths of parallel conductors of the set of two or more parallel conductors decrease from a center of the clear aperture of the liquid crystal lens to opposing outside edges of the clear aperture of the liquid crystal lens in a direction of the widths of the parallel conductors and proportional to a square of a distance of each parallel conductor to the center of the clear aperture of the liquid crystal lens, and a second electrode pattern disposed on the at least one substrate and electrically isolated from the first electrode pattern, wherein the second electrode pattern includes a second set of two or more parallel conductors each having a length proportional to the longest dimension of the clear aperture of the liquid crystal lens, wherein the second set of two or more parallel conductors is configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting cylindrical focal power, wherein a width direction of the second electrode pattern is at an angle relative to a width direction of the first electrode pattern. 2. The varifocal optical assembly of claim 1 , further comprising: a third electrode pattern disposed on the at least one substrate and electrically isolated from both the first and second electrode patterns, wherein the third electrode pattern includes a set of concentric conductors configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting spherical focal power. 3. The varifocal optical assembly of claim 2 , wherein each of the concentric conductors of the third electrode pattern has a radial width that decreases from the center of the clear aperture of the liquid crystal lens to an outside edge of the clear aperture of the liquid crystal lens and is proportional to the square of the distance of each conductor to the center of the clear aperture of the liquid crystal lens. 4. The varifocal optical assembly of claim 2 , wherein the varifocal optical assembly is polarization insensitive. 5. The varifocal optical assembly of claim 4 , further comprising: a second liquid crystal lens including a second liquid crystal layer disposed between opposing substrates; a fourth electrode pattern disposed on at least one substrate of the second liquid crystal lens, wherein the first electrode pattern includes a set of two or more parallel conductors each having a length proportional to the longest dimension of the clear aperture of the liquid crystal lens, wherein the set of two or more parallel conductors is configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting cylindrical focal power; and a fifth electrode pattern disposed on the at least one substrate of the second liquid crystal lens and electrically isolated from the first electrode pattern, wherein the second electrode pattern includes a set of concentric conductors configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting spherical focal power, wherein the first liquid crystal lens is configured for a first polarization of light and the second liquid crystal lens is configured for a second polarization of light orthogonal to the first polarization of light. 6. The varifocal optical assembly of claim 2 , wherein the set of two or more parallel conductors of the first electrode pattern is segmented into two or more groups of adjacent conductors electrically connected in series, each group having a first conductor closest to the center of the clear aperture of the liquid crystal lens and connected to a positive voltage supply and a last conductor farthest from the center of the clear aperture of the liquid crystal lens connected to a negative voltage supply. 7. The varifocal optical assembly of claim 6 , wherein a voltage of successive conductors within the two or more groups decreases or increases linearly from the first conductor closest to the center of the clear aperture to the last conductor farthest from the center of the clear aperture of the liquid crystal lens. 8. The varifocal optical assembly of claim 7 , wherein voltage applied to the first conductor of each of the two or more groups is the same, and wherein the voltage of successive conductors within the two or more groups are the same. 9. A head mounted display comprising: a display configured to emit image light; and a varifocal optical assembly configured to provide astigmatism compensation, the varifocal optical assembly comprising: a first liquid crystal lens including a liquid crystal disposed between opposing substrates; a first electrode pattern disposed on at least one substrate, wherein the first electrode pattern includes a set of two or more parallel conductors each having a length proportional to the longest dimension of a clear aperture of the liquid crystal lens, wherein adjacent conductors of the set of two or more parallel conductors are separated by a gap and are configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting cylindrical focal power, wherein widths of parallel conductors of the set of two or more parallel conductors decrease from a center of the clear aperture of the liquid crystal lens to opposing outside edges of the clear aperture of the liquid crystal lens in a direction of the widths of the parallel conductors and proportional to a square of a distance of each parallel conductor to the center of the clear aperture of the liquid crystal lens, and a second electrode pattern disposed on the at least one substrate and electrically isolated from the first electrode pattern, wherein the second electrode pattern includes a second set of two or more parallel conductors each having a length proportional to the longest dimension of the clear aperture of the liquid crystal lens, wherein the second set of two or more parallel conductors is configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting cylindrical focal power, wherein a width direction of the second electrode pattern is at an angle relative to a width direction of the first electrode pattern. 10. The head mounted display of claim 9 , further comprising: a third electrode pattern disposed on the at least one substrate and electrically isolated from both the first and second electrode patterns, wherein the third electrode pattern includes a set of concentric conductors configured to generate a voltage distribution within the liquid crystal layer that results in the liquid crystal layer exhibiting spherical focal power. 11. The head mounted display of claim 10 , wherein the varifocal optical assembly is polarization insensitive. 12. The head mounted display of claim 11 , further comprising: a second liquid crystal lens assembly including a liquid crystal disposed between opposing sub