Double-layer electrode for electro-optic liquid crystal lens

The invention claimed is: 1. An electro-optic device comprising: a first liquid crystal lens to impart a first phase profile on incident light, the first liquid crystal lens comprising first concentric electrode rings separated by respective first insulating gaps; and a second liquid crystal lens, in optical series with the first liquid crystal lens, to further impart a second phase profile on the incident light, the second liquid crystal lens comprising second concentric electrode rings separated by respective second insulating gaps, wherein the first concentric electrode rings are positioned over the respective second insulating gaps and the second concentric electrode rings are positioned over the respective first insulating gaps. 2. The electro-optic device of claim 1 , wherein the first liquid crystal lens comprises a first liquid crystal layer and the second liquid crystal lens comprises a second liquid crystal layer separated from the first liquid crystal layer by a substrate. 3. The electro-optic device of claim 1 , wherein the respective first insulating gaps and the respective second insulating gaps are each about 0.1 micrometers wide to about 10 micrometers wide. 4. The electro-optic device of claim 1 , wherein, as seen by an impinging light wave, there appear to be no insulating gaps between the first concentric ring electrodes or the second concentric ring electrodes. 5. The electro-optic device of claim 1 , further comprising: an insulating layer disposed between the first concentric electrode rings and the second concentric electrode rings. 6. The electro-optic device of claim 1 , further comprising: an electrical power supply; and buss lines connecting the first concentric electrode rings and the second concentric electrode rings to the electrical power supply. 7. The electro-optic device of claim 6 , wherein the buss lines are disposed on an insulating layer and connect to the first concentric electrode rings and/or the second concentric electrode rings through vias in the insulating layer. 8. The electro-optic device of claim 6 , wherein the buss lines are disposed on a substrate of the electro-optic device. 9. The electro-optic device of claim 6 , wherein the first concentric electrode rings comprise concentric electrode rings connected to the buss lines and configured to transfer electrical power to concentric electrode rings unconnected to the buss lines via capacitance and/or inductance. 10. A method of focusing light with an electro-optic device comprising a first liquid crystal lens and a second liquid crystal lens in optical series with the first liquid crystal lens, the method comprising: imparting a first phase profile on incident light with a first liquid crystal layer in the first liquid crystal lens with first concentric electrode rings separated by respective first insulating gaps; and imparting a second phase profile on the incident light with a second liquid crystal layer in the second liquid crystal lens with second concentric electrode rings separated by respective second insulating gaps, and wherein the first concentric electrode rings are positioned over the respective second insulating gaps and the second concentric electrode rings are positioned over the respective first insulating gaps. 11. The method of claim 10 , wherein the respective first insulating gaps and the respective second insulating gaps are each about 0.1 micrometer wide to approximately 10 micrometers wide. 12. The method of claim 10 , wherein the first concentric electrode rings and the second concentric electrode rings are separated by an insulating layer. 13. The method of claim 10 , further comprising: conducting electrical power from an electrical power supply to the first concentric electrode rings and/or the second concentric electrode rings via buss lines. 14. The method of claim 13 , wherein the buss lines are disposed on an insulating layer and connect to the first concentric electrode rings and/or the second concentric electrode rings through vias in the insulating layer. 15. The method of claim 13 , wherein the buss lines are disposed on a substrate of the electro-optic device. 16. The method of claim 10 , further comprising: wirelessly transferring electrical power between concentric electrode rings. 17. An electro-optic device comprising: a two-layer electrode structure comprising: a first layer of concentric ring electrodes separated by respective first insulating gaps; and a second layer of concentric ring electrodes separated by respective second insulating gaps and separated from the first layer of concentric ring electrodes by an insulating layer, wherein, as seen by an impinging light wave, there appear to be no insulating gaps between adjacent concentric ring electrodes in the two-layer electrode structure.