Transducer array having a variable resistance conductive gel layer

What is claimed is: 1. A transducer array, comprising: a conductive layer having one or more electrode element, the one or more electrode element configured to receive electrical signals from an electric field generator producing an electric signal as a Tumor Treating Field; and a conductive gel layer overlapping the one or more electrode element of the conductive layer, the conductive gel layer having a first region and a second region, the first region having a first thickness and a first resistance and the second region having a second thickness and a second resistance, the first thickness being different from the second thickness. 2. The transducer array of claim 1 , wherein the first region is within a first area having a first electrode density, and the second region is within a second area having a second electrode density, the first electrode density higher than the second electrode density. 3. The transducer array of claim 1 , wherein the conductive gel layer extends outwardly from a first electrode element of the one or more electrode element. 4. The transducer array of claim 3 , wherein the first region of the conductive gel layer does not overlap with the first electrode element, and the second region of the conductive gel layer overlaps with the first electrode element, and wherein the first resistance is less than the second resistance. 5. The transducer array of claim 1 , wherein the one or more electrode element includes a first electrode element at least partially coextensive with the first region, and a second electrode element at least partially coextensive with the second region, the first electrode element and the second electrode element being spatially disposed within an electrode area having an outer perimeter, and wherein the first electrode element is closer to the outer perimeter than the second electrode element, and the first resistance is greater than the second resistance. 6. The transducer array of claim 1 , wherein the first region has a first resistivity and the second region has a second resistivity, the first resistivity being different from the second resistivity. 7. The transducer array of claim 6 , wherein the first region is within a first area having a first electrode density, and the second region is within a second area having a second electrode density different from the first electrode density. 8. The transducer array of claim 7 , wherein the first electrode density is higher than the second electrode density and the first resistivity is lower than the second resistivity. 9. The transducer array of claim 1 , wherein the second resistance is greater than the first resistance. 10. The transducer array of claim 1 , wherein the first region of the conductive gel layer is a first material, and the second region of the conductive gel layer is a second material, the first material being different from the second material. 11. The transducer array of claim 10 , wherein both the first material and the second material comprise a same component A, but one of the first material and the second material further comprises one or more component not present in the other material. 12. The transducer array of claim 1 , wherein the conductive layer has a center of mass, and wherein the first region is spaced from the center of mass a first distance, and the second region is spaced from the center of mass a second distance, and wherein the second resistance is greater than the first resistance. 13. The transducer array of claim 12 , wherein the resistance of the conductive gel layer varies based on distance from the center of mass. 14. The transducer array of claim 13 , wherein the resistance of the conductive gel layer varies in a step-wise manner. 15. The transducer array of claim 13 , wherein the resistance of the conductive gel layer varies in a continuous manner. 16. The transducer array of claim 13 , wherein the resistance of the conductive gel layer increases proportionately to the distance from the center of mass. 17. The transducer array of claim 16 , wherein the resistance of the conductive gel layer varies in a step-wise manner. 18. The transducer array of claim 1 , wherein the one or more electrode element includes a first electrode element, and wherein the first region and the second region are at least one of electrically coupled and capacitively coupled to the first electrode element. 19. The transducer array of claim 1 , further comprising: a conductive lead electrically coupled to the electric field generator and the one or more electrode element, the conductive lead receiving the electrical signals having an alternating current waveform with a frequency between 50 kHz and 500 kHz. 20. The transducer array of claim 19 , further comprising: a blocking capacitor disposed between the electric field generator and the one or more electrode element, wherein the electrical signals pass through the blocking capacitor before being received by the electrode element.