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An antenna system for communicating electromagnetic and optical signals using a common aperture is provided. The system includes at least one optical phased array terminal integrated with an optically transparent electromagnetic antenna such that the optically transparent electromagnetic antenna and

An antenna system for communicating electromagnetic and optical signals using a common aperture is provided. The system includes at least one optical phased array terminal integrated with an optically transparent electromagnetic antenna such that the optically transparent electromagnetic antenna and the optical phased array terminal share a common aperture. The optically transparent electromagnetic antenna includes a substrate fabricated of a substantially electrically non-conductive material that is substantially optically transparent to optical signals having a wavelength within a specific portion of the optical spectrum. An antenna element layer, including an array of electromagnetic antenna elements electrically connected by transmission lines and a plurality of phase shifters electrically connected to the electromagnetic antenna elements is disposed onto the substrate. The antenna elements and the transmission lines are fabricated of a conductive material that is deposited such that they are substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum.

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What is claimed is: 1. An optically transparent electromagnetic antenna comprising: a substrate that is optically transparent to optical signals having a wavelength within a specific portion of the optical spectrum; and an antenna element layer comprising an array of electromagnetic antenna element

What is claimed is: 1. An optically transparent electromagnetic antenna comprising: a substrate that is optically transparent to optical signals having a wavelength within a specific portion of the optical spectrum; and an antenna element layer comprising an array of electromagnetic antenna elements fabricated of an electrically conductive material deposited onto the substrate such that the antenna elements are substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum; wherein the optically transparent electromagnetic antenna is adapted to be integrated with at least one optical terminal such that the optically transparent electromagnetic antenna and the optical terminal share a common aperture. 2. The antenna of claim 1, wherein the antenna further comprises a ground plane layer electrically connected to the antenna element layer, the ground plane layer comprising an electrically conductive material deposited onto the substrate such that the ground plane layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 3. The antenna of claim 1, wherein the antenna further comprises a data layer electrically connected to the antenna element layer, the data layer comprising an electrically conductive material deposited onto the substrate such that the data layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 4. The antenna of claim 1, wherein the antenna further comprises a clock layer electrically connected to the antenna element layer, the clock layer comprising an electrically conductive material deposited onto the substrate such that the clock layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 5. The antenna of claim 1, wherein the antenna further comprises a power layer electrically connected to the antenna element layer, the power layer comprising an electrically conductive material deposited onto the substrate such that the power layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 6. The antenna of claim 1, wherein the electrically non-conductive material of the substrate comprises quartz. 7. The antenna of claim 1, wherein the array of electromagnetic antenna elements comprises a plurality of electromagnetic antenna elements electrically connected by transmission lines, wherein the electromagnetic antenna elements and the transmission lines are fabricated of the optically transparent electrically conductive material deposited onto the substrate. 8. The antenna of claim 7, wherein the electrically conductive material of the antenna elements comprises gold arranged in a grid. 9. The antenna of claim 7, wherein the electrically conductive material of the antenna elements comprises Indium Tin Oxide. 10. The antenna of claim 7, wherein the antenna element layer further comprises a plurality of phase shifters electrically connected to the electromagnetic antenna elements to provide electronic scanning, wherein the phase shifters are bonded to the substrate. 11. A method for providing electromagnetic and optical communication to and from a mobile platform, said method comprising: providing an optically transparent electromagnetic antenna mounted to an exterior of a mobile platform, the optically transparent electromagnetic antenna including a substrate fabricated of a substantially electrically non-conductive material that is optically transparent to optical signals having a wavelength within a specific portion of the optical spectrum; providing at least one optical phased array terminal mounted to the exterior of the mobile platform; and overlaying the optically transparent electromagnetic antenna on top of the optical phased array terminal so that the optically transparent electromagnetic antenna and the optical phased array terminal share a common aperture. 12. The method of claim 11, wherein providing the optically transparent electromagnetic antenna comprises constructing the optically transparent electromagnetic antenna to include an antenna element layer comprising an array of electromagnetic antenna elements fabricated of an electrically conductive material deposited onto the substrate such that the antenna elements are substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 13. The method of claim 12, wherein providing the optically transparent electromagnetic antenna comprises connecting the electromagnetic antenna elements with a plurality of transmission lines deposited onto the substrate such that the transmission lines are substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 14. The method of claim 13, wherein providing the optically transparent electromagnetic antenna comprises constructing the optically transparent electromagnetic antenna to include the antenna element layer further comprising a plurality of phase shifters electrically connected to the electromagnetic antenna elements to provide electronic scanning, wherein the phase shifters are deposited onto the substrate. 15. The method of claim 14, wherein providing the optically transparent electromagnetic antenna comprises fabricating the substrate and the electromagnetic antenna elements to be substantially optically transparent to optical signals having a wavelength in at least one of a visible-near infrared optical band, a mid-wave infrared optical band and a long wave infrared optical band. 16. The method of claim 12, wherein providing the optically transparent electromagnetic antenna comprises fabricating the antenna elements from gold arranged in a grid. 17. The method of claim 12, wherein providing the optically transparent electromagnetic antenna comprises fabricating the antenna elements from Indium Tin Oxide. 18. The method of claim 11, wherein providing the optically transparent electromagnetic antenna comprises constructing the optically transparent electromagnetic antenna to include a ground plane layer electrically connected to the antenna element layer, the ground plane layer comprising an electrically conductive material deposited onto the substrate such that the ground layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 19. The method of claim 11, wherein providing the optically transparent electromagnetic antenna comprises constructing the optically transparent electromagnetic antenna to include a data layer electrically connected to the antenna element layer, the data layer comprising an electrically conductive material deposited onto the substrate such that the data layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 20. The method of claim 11, wherein providing the optically transparent electromagnetic antenna comprises constructing the optically transparent electromagnetic antenna to include a clock layer electrically connected to the antenna element layer, the clock layer comprising an electrically conductive material deposited onto the substrate such that the clock layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 21. The method of claim 11, wherein providing the optically transparent electromagnetic antenna comprises constructing the optically transparent electromagnetic antenna to include a power layer electrically connected to the antenna element layer, the power layer comprising an electrically conductive material deposited onto the substrate such that the power layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 22. An antenna system for communicating electromagnetic and optical signals using a common aperture, said system comprising at least one optical phased array terminal; and an optically transparent electromagnetic antenna integrated with the optical phased array terminal such that the optically transparent electromagnetic antenna and the optical phased array terminal share a common aperture, wherein the optically transparent electromagnetic antenna comprises: a substrate fabricated of a substantially electrically non-conductive material that is optically transparent to optical signals having a wavelength within a specific portion of the optical spectrum; an antenna element layer comprising an array of electromagnetic antenna elements electrically connected by transmission lines and a plurality of phase shifters electrically connected to the electromagnetic antenna elements to provide electronic scanning, wherein the antenna elements and the transmission lines are fabricated of an electrically conductive material deposited onto the substrate such that the transmission lines are substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum; a ground plane layer electrically connected to the antenna element layer, the ground plane layer comprising an electrically conductive material deposited onto the substrate such that the ground layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum; a data layer electrically connected to the antenna element layer, the data layer comprising an electrically conductive material deposited onto the substrate such that the data layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum; a clock layer electrically connected to the antenna element layer, the clock layer comprising an electrically conductive material deposited onto the substrate such that the clock layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum; and a power layer electrically connected to the antenna element layer, the power layer comprising an electrically conductive material deposited onto the substrate such that the power layer is substantially optically transparent to optical signals having a wavelength within the specific portion of the optical spectrum. 23. The system of claim 22, wherein the substrate comprises a quartz substrate. 24. The system of claim 22, wherein the electrically conductive material of each of the layers independently comprises at least one of gold arranged in a grid, and Indium Tin Oxide. 25. The system of claim 22, wherein the phase shifters bonded to the substrate.