Efficient thermo-optic phase shifters using multi-pass heaters

What is claimed is: 1. A thermo-optic phase shifter device, comprising: a plurality of optical waveguides formed in a silicon-on-insulator (SOI) layer over a buried insulator; at least one heating element adjacent to the optical waveguides; and thermal bridges connecting at least one of the optical waveguides directly to the heating element, wherein the thermal bridges are i) present between one or more of the optical waveguides and the heating element and ii) absent between another one or more of the optical waveguides and the heating element, such that the thermal bridges connect only some of the optical waveguides directly to the heating element. 2. The thermo-optic phase shifter device of claim 1 , further comprising: trenches in the SOI layer between the optical waveguides and the heating element. 3. The thermo-optic phase shifter device of claim 2 , further comprising: an insulator within the trenches. 4. The thermo-optic phase shifter device of claim 3 , wherein the insulator comprises an oxide material. 5. The thermo-optic phase shifter device of claim 3 , wherein a top surface of the insulator is coplanar with a top surface of the SOI layer. 6. The thermo-optic phase shifter device of claim 1 , further comprising: a mask covering the optical waveguides. 7. The thermo-optic phase shifter device of claim 6 , wherein the mask comprises a nitride material. 8. The thermo-optic phase shifter device of claim 1 , wherein the heating element comprises a silicide heater. 9. The thermo-optic phase shifter device of claim 8 , wherein the silicide heater comprises nickel silicide, cobalt silicide, or titanium silicide. 10. The thermo-optic phase shifter device of claim 1 , wherein the heating element has a width of from about 1.5 μm to about 2.5 μm, and ranges therebetween. 11. The thermo-optic phase shifter device of claim 1 , further comprising: an optical cladding material covering the optical waveguides and heating element. 12. The thermo-optic phase shifter device of claim 11 , wherein the optical cladding material comprises silicon dioxide. 13. The thermo-optic phase shifter device of claim 1 , wherein the thermal bridges are formed in the SOI layer. 14. The thermo-optic phase shifter device of claim 1 , wherein the SOI layer has a thickness T SOI , and the thermal bridges each have a thickness T THERMAL BRIDGE of from about 10% to about 70%, and ranges therebetween, that of the T SOI . 15. The thermo-optic phase shifter device of claim 1 , wherein only one of the optical waveguides is connected directly to the heating element by the thermal bridges. 16. The thermo-optic phase shifter device of claim 15 , wherein only an optical waveguide at a center of the thermo-optic phase shifter device is directly connected to the heating element by the thermal bridges. 17. The thermo-optic phase shifter device of claim 1 , wherein the heating element is present between at least two of the optical waveguides. 18. The thermo-optic phase shifter device of claim 1 , further comprising: a plurality of vias in contact with the at least one heating element.