Apparatus and Method for Differential Thermal Optical Switch Control

What is claimed is: 1 . An optical interferometer comprising: a first waveguide disposed on a substrate, the first waveguide having a plurality of straight segments, each segment of the straight segments connected to a subsequent segment of the straight segments by respective curved segments having one of a smaller radius of curvature and a larger radius of curvature; a second waveguide disposed on the substrate, the second waveguide having a plurality of straight segments, each segment of the straight segments connected to a subsequent segment of the straight segments by respective curved segments having one of a smaller radius of curvature and a larger radius of curvature, the straight segments of the second waveguide interleaved with and parallel to the straight segments of the first waveguide, the curved segments having a smaller radius of curvature of the first waveguide nested within the curved segments having a larger radius of curvature of the second waveguide, the curved segments having a smaller radius of curvature of the second waveguide nested within the curved segments having a larger radius of curvature of the first waveguide; a single continuous layer of a thermo-electric material disposed on the substrate, the thermo-electric material in contact with the first waveguide and the second waveguide, the thermo-electric material extending at least between outer sides of and across both the first waveguide and the second waveguide, the thermo-electric material extending along the length of each of the plurality of straight segments of the first waveguide and the second waveguide; and a pair of electrodes disposed on the thermo-electric material, the pair of electrodes next to first waveguide and the second waveguide and extending along the length of each of the plurality of straight segments of the first waveguide and the second waveguide. 2 . The optical interferometer of claim 1 wherein the first waveguide and the second waveguide are of a substantially equal length. 3 . The optical interferometer of claim 1 wherein the curved segments having a smaller radius of curvature of the first and second waveguides have a substantially equal radius of curvature. 4 . The optical interferometer of claim 1 wherein the curved segments having a larger radius of curvature of the first and second waveguides have a substantially equal radius of curvature. 5 . The optical interferometer of claim 1 further comprising: a splitter coupled to a first end of the first and second waveguides; an input signal waveguide coupled to the splitter on an opposite end of the splitter from the first and second waveguides; a coupler coupled to a second end of the first and second waveguides; and an output signal waveguide coupled to the coupler on an opposite end of the coupler from the first and second waveguides. 6 . The optical interferometer of claim 1 , wherein the thermo-electric material is a semiconductor layer between the substrate and the first and second waveguides. 7 . The optical interferometer of claim 1 , wherein the pair of electrodes extend between the first and second waveguides, and next to inner edges of the first and second waveguides. 8 . The optical interferometer of claim 7 , further comprising a second pair of electrodes disposed on the thermo-electric material, the second pair of electrodes extending along the length of each of the plurality of straight segments of the first waveguide and the second waveguide, the second pair of electrodes next to outer edges of the first and second waveguides. 9 . The optical interferometer of claim 1 , wherein the pair of electrodes are next to outer edges of the first and second waveguides. 10 . The optical interferometer of claim 1 , wherein the first and second waveguides are composed of one of Silicon Oxide (SiO 2 ), Silicon Nitride (SiN), or Silicon (Si). 11 . The optical interferometer of claim 1 wherein the substrate is a dielectric base. 12 . The optical interferometer of claim 11 , wherein the dielectric base is composed of one of Silicon Oxide (SiO 2 ) or glass. 13 . The optical interferometer of claim 1 , wherein the thermo-electric material is n-type or p-type doped Silicon.