Mesh patterns for touch sensor electrodes

What is claimed is: 1. An electrode for a touch sensor, comprising an array of discontinuous metallic micro-wire conductors establishing a reference mesh having a characteristic average cell spacing; a first conductive pattern of continuous metallic micro-wires disposed along a first direction, wherein the conductive pattern is coincident with the reference mesh; and, a plurality of electrically continuous branching elements electrically connected to the first conductive pattern and extending outward therefrom, wherein the branching elements are coincident with the reference mesh and are comprised of metallic micro-wires, and wherein the branching elements include a plurality of different lengths. 2. The electrode of claim 1 , wherein the first conductive pattern defines an electrode trunk, and the branching elements extend outward from the electrode trunk. 3. The electrode of claim 2 , wherein the first conductive pattern defines further electrode trunks, and the branching elements extend outward from these further electrode trunks. 4. The electrode of claim 2 , wherein the branching elements substantially conform to a diamond shape centered on the electrode trunk. 5. The electrode of claim 2 , wherein branching elements are electrically coupled to the electrode trunk at no more than one terminal area. 6. The electrode of claim 1 , wherein the branching elements are arranged along directions substantially transverse to the first direction. 7. The electrode of claim 1 , wherein a distance between branching elements is equal to or greater than at least one characteristic average cell spacing. 8. The electrode of claim 1 , wherein a length of each of the branching elements is equal to or greater than at least one characteristic average cell spacing. 9. The electrode of claim 1 , wherein at least some of the branching elements are interleaved with branching elements of other electrodes of the touch sensor. 10. The electrode of claim 1 , wherein the reference mesh is comprised of microwires having trace widths of about X+0.5 in units of micrometers; and an open area fraction between about [95−X]% and 99.5%, wherein 0≦X≦4.5. 11. A touch sensor comprising the electrode of claim 1 . 12. A touch sensor comprising first and second electrode layers separated by a dielectric layer, the first and second electrode layers each comprising a plurality of electrodes, at least some electrodes of the first electrode layer comprising: a first array of discontinuous metallic micro-wire conductors establishing a first reference mesh; a first conductive pattern of continuous metallic micro-wires disposed along a first direction, wherein the first conductive pattern is coincident with the first reference mesh; and a first plurality of electrically continuous branching elements electrically connected to the first conductive pattern and extending outward therefrom, wherein the first plurality of branching elements are coincident with the first reference mesh and are comprised of metallic micro-wires, wherein at least some of the branching elements the first plurality of branching elements are interleaved with branching elements of other electrodes of the first electrode layer. 13. The touch sensor of claim 12 , wherein the branching elements include a plurality of different lengths. 14. The touch sensor of claim 12 , wherein a distance between branching elements is equal to or greater than at least one characteristic average cell spacing. 15. The touch sensor of claim 12 , wherein a length of each of the branching elements is equal to or greater than at least one characteristic average cell spacing. 16. The touch sensor of claim 12 , wherein at least some electrodes of the second electrode layer comprises: a second array of discontinuous metallic micro-wire conductors establishing a second reference mesh; a second conductive pattern of continuous metallic micro-wires disposed along a second direction, wherein the second conductive pattern is coincident with the second reference mesh; and a second plurality of electrically continuous branching elements electrically connected to the second conductive pattern and extending outward therefrom, wherein the second plurality of branching elements are coincident with the second reference mesh and are comprised of metallic micro-wires. 17. The touch sensor of claim 16 , wherein at least some of the branching elements in the second plurality of branching elements are interleaved with branching elements of other electrodes of the second electrode layer. 18. The touch sensor of claim 16 , wherein the second direction is substantially transverse to the first direction. 19. The touch sensor of claim 16 , wherein the branching elements in the second plurality of branching elements include a plurality of different lengths. 20. The touch sensor of claim 12 , wherein the first reference mesh is comprised of microwires having trace widths of about X+0.5 in units of micrometers; and an open area fraction between about [95−X]% and 99.5%, wherein 0≦X≦4.5. 21. A display comprising the touch sensor of claim 12 overlaying a viewable portion of the display.