Polarization-independent grating coupler for silicon on insulator

What is claimed is: 1. An apparatus, comprising: a grating structure having a plurality of gratings; wherein one or more of the gratings are configured: to be non-uniformly spaced with respect to one or more other ones of the gratings; and to optically couple a first light conduit and a second light conduit enabling light having a first polarization and light having a second polarization to pass through the grating structure and propagate in the same direction in one of the first light conduit and the second light conduit; wherein the non-uniform spacing of the gratings represents one of: an intersection of a first grating period associated with the light having the first polarization and a second grating period associated with the light having the second polarization; and a union of the first grating period associated with light having the first polarization and the second grating period associated with light having the second polarization; and wherein the first grating period and the second grating period are different. 2. The apparatus of claim 1 , wherein the non-uniform spacing of the gratings represents the intersection of the first grating period associated with the light having the first polarization and the second grating period associated with the light having the second polarization. 3. The apparatus of claim 1 , wherein the non-uniform spacing of the gratings represents the union of the first grating period associated with light having the first polarization and the second grating period associated with light having the second polarization. 4. The apparatus of claim 1 , wherein the grating structure is a one-dimensional grating structure. 5. The apparatus of claim 4 , wherein the one-dimensional grating structure has a non-uniform periodicity and the structure is formed to represent a common overlap of at least two different one dimensional grating structures, each having a different uniform period. 6. The apparatus of claim 4 , wherein the one-dimensional grating structure has a non-uniform periodicity and the structure is formed to represent a sum of at least two different one-dimensional grating structures, each having a different uniform period. 7. The apparatus of claim 1 , wherein the light having the first polarization comprises transverse-electric polarized light. 8. The apparatus of claim 1 , wherein the light having the second polarization comprises transverse-magnetic polarized light. 9. An apparatus, comprising: a first grating structure having a plurality of gratings; and a second grating structure having a plurality of gratings; wherein one or more of the gratings of the first grating structure are configured: to be non-uniformly spaced with respect to one or more other ones of the gratings; and to optically couple a first light conduit and a second light conduit enabling light having a first polarization and light having a second polarization to pass through the first grating structure and propagate in the same direction in the second light conduit; wherein one or more of the gratings of the second grating structure are configured: to be non-uniformly spaced with respect to one or more other ones of the gratings; and to optically couple the first light conduit and a third light conduit enabling light having the first polarization and light having the second polarization, that is not diffracted by the first grating structure, to pass through the second grating structure and propagate in the same direction in the third light conduit; wherein the non-uniform spacing of the gratings of the first grating structure represents one of: an intersection of a first grating period associated with the light having the first polarization and a second grating period associated with the light having the second polarization; and a union of the first grating period associated with light having the first polarization and the second grating period associated with light having the second polarization; and wherein the first grating period and the second grating period are different. 10. The apparatus of claim 9 , wherein the non-uniform spacing of the gratings of the second grating structure represents the other one of: the intersection of the first grating period associated with the light having the first polarization and the second grating period associated with the light having the second polarization; and the union of the first grating period associated with the light having the first polarization and the second grating period associated with the light having the second polarization. 11. An apparatus, comprising: a first grating structure having a plurality of gratings; and a second grating structure having a plurality of gratings; wherein one or more of the gratings of the first grating structure are configured: to be non-uniformly spaced with respect to one or more other ones of the gratings; and to optically couple a first light conduit and a second light conduit enabling light having a first polarization to pass through the first grating structure and propagate in the second light conduit; wherein one or more of the gratings of the second grating structure are configured: to be one of uniformly and non-uniformly spaced with respect to one or more other ones of the gratings; and to optically couple the first light conduit and a third light conduit enabling light having a second polarization to pass through the second grating structure and propagate in the third light conduit in the same direction as the light propagates in the second light conduit; wherein the non-uniform spacing of the gratings of the first grating structure represents one of: an intersection of a first grating period associated with the light having the first polarization and a second grating period associated with the light having the second polarization; and a union of the first grating period associated with light having the first polarization and the second grating period associated with light having the second polarization; and wherein the first grating period and the second grating period are different. 12. The apparatus of claim 11 , wherein the first grating period is optimized for the light having the first polarization and the second grating period is optimized for the light having the second polarization. 13. A system, comprising: a first light conduit; and an optical coupler comprising a grating structure having a plurality of gratings, wherein one or more of the gratings are configured: to be non-uniformly spaced with respect to one or more other ones of the gratings; and to optically couple the first light conduit and a second light conduit enabling light having a first polarization and light having a second polarization to pass through the grating structure and propagate in the same direction in one of the first light conduit and the second light conduit; wherein the non-uniform spacing of the gratings represents one of: an intersection of a first grating period associated with the light having the first polarization and a second grating period associated with the light having the second polarization; and a union of the first grating period associated with light having the first polarization and the second grating period associated with light having the second polarization; and wherein the first grating period and the second grating period are different. 14. The system of claim 13 , further comprising a buried oxide insulating layer below the first light conduit. 15. The system of claim 14 , further comprising a substrate layer below the buried oxide insulating layer.