Broadband stacked multi-spiral antenna array integrated into an aircraft structural element

What is claimed is: 1. A broadband stacked multi-spiral antenna array comprising: two or more stacked spiral antennas including a first spiral antenna, and a second spiral antenna, wherein the first spiral antenna and the second spiral antenna and are stacked with a low dielectric layer with a generally uniform thickness positioned between the first spiral antenna and the second spiral antenna and wherein the first spiral antenna and the second spiral antenna are center-fed and in-phase. 2. The broadband stacked multi-spiral antenna array of claim 1 , wherein the two or more stacked spiral antennas are two or more Archimedean spiral antennas, two or more equiangular spiral antennas, two or more sinuous spiral antennas, or two or more slotted spiral antennas, and wherein each of the two or more stacked spiral antennas are dual-arm spiral antennas with each spiral antenna having two arms. 3. The broadband stacked multi-spiral antenna array of claim 2 , wherein the low dielectric layer includes air, a vacuum, or a non-conductive low dielectric laminate, wherein the generally uniform thickness of the low dielectric layer is a spacer distance between the first and second spiral antennas, wherein a capacitance is created between the first and second spiral antennas, and wherein the capacitance tunes an input impedance of the broadband stacked multi-spiral antenna array. 4. The broadband stacked multi-spiral antenna array of claim 3 , further including a reflecting cavity having a depth, and a composite laminate including the first spiral antenna, the second spiral antenna, and the low dielectric layer, wherein the composite laminate includes an inner-surface, wherein the reflecting cavity is positioned at a side adjacent to the inner-surface, wherein the broadband stacked multi-spiral antenna array is configured to operate at a center-operating frequency corresponding to a center-operating wavelength (λ center-operating ), and wherein the depth of the reflecting cavity is approximately equal to one-fourth of the λ center-operating . 5. The broadband stacked multi-spiral antenna array of claim 4 , wherein an operating frequency range of the broadband stacked multi-spiral antenna array is about 0.225 gigahertz (GHz) to about 2.0 GHz, wherein the center-operating frequency approximately equal to 1.112 GHz, wherein the λ center-operating is approximately equal to 266.48 cm, and wherein the low dielectric layer has a uniform thickness of less than approximately 10.0% of the λ center-operating . 6. The broadband stacked multi-spiral antenna array of claim 3 , wherein the first spiral antenna and the second spiral antenna are center-fed by feed lines electrically connected to the arms of the first and second spiral antennas at their respective centers and wherein the feed lines are coaxial cables, microstrip lines, or striplines. 7. The broadband stacked multi-spiral antenna array of claim 1 , wherein the two or more stacked spiral antennas are seven stacked spiral antennas having three pairs of adjacent stacked spiral antennas, wherein the seven stacked spiral antennas are seven stacked Archimedean spiral antennas, seven stacked equiangular spiral antennas, seven stacked sinuous spiral antennas, or seven stacked slotted spiral antennas, wherein a low dielectric layer having a generally uniform thickness is positioned between each pair of the adjacent stacked spiral antennas, and wherein an outside diameter of an outermost spiral antenna of the seven stacked spiral antennas has a largest diameter, with an outside diameter of each adjacent innermost spiral antenna of the seven stacked spiral antennas having a smaller outside diameter. 8. A conformal broadband stacked multi-spiral antenna assembly for use in a mobile platform, the conformal broadband stacked multi-spiral antenna assembly comprising: two or more stacked spiral antennas including a first dual-arm spiral antenna, and a second dual-arm spiral antenna, wherein the first dual-arm spiral antenna and the second dual-arm spiral antenna are stacked with a low dielectric layer with a generally uniform thickness positioned between the first dual-arm spiral antenna and the second dual-arm spiral antenna, and wherein the first dual-arm spiral antenna and the second dual-arm spiral antenna are center-fed and in-phase; and a composite laminate in which the first dual-arm spiral antenna, the second dual-arm spiral antenna, and the low dielectric layer are embedded. 9. The conformal broadband stacked multi-spiral antenna assembly of claim 8 , wherein each of the first and the second dual-arm spiral antennas include two arms, wherein the two or more stacked spiral antennas are two or more Archimedean spiral antennas, two or more equiangular spiral antennas, two or more sinuous spiral antennas, or two or more slotted spiral antennas, and wherein each stacked spiral antenna has a number of turns that are the same, an arm width that is the same, and a spacing between the arms that is the same. 10. The conformal broadband stacked multi-spiral antenna assembly of claim 9 , wherein the composite laminate includes any one of a fibrous material embedded in a resinous matrix, a honeycomb core sandwich, and a structural foam. 11. The conformal broadband stacked multi-spiral antenna assembly of claim 10 , wherein the fibrous material is fiberglass, KEVLAR®, carbon fiber, or a carbon KEVLAR® hybrid fabric, and wherein the resinous matrix is an epoxy resin, a vinyl ester resin, or a polyester resin. 12. The conformal broadband stacked multi-spiral antenna assembly of claim 9 , further comprising a reflecting cavity positioned at a bottom of an innermost dual-arm spiral antenna of the conformal broadband stacked multi-spiral antenna assembly. 13. The conformal broadband stacked multi-spiral antenna assembly of claim 9 , wherein the composite laminate comprises a via that provides a pathway for coaxial cables that provide a center feed to each of the first and the second dual-arm spiral antennas. 14. The conformal broadband stacked multi-spiral antenna assembly of claim 9 , wherein the composite laminate is shaped in a form of a non-load-bearing structural element or a load-bearing structural element of an aircraft. 15. The conformal broadband stacked multi-spiral antenna assembly of claim 14 , where the non-load-bearing structural element is selected from a group consisting of a stowage bay access door, a hatch cover, and an access panel of an aircraft. 16. The conformal broadband stacked multi-spiral antenna assembly of claim 14 , where the load-bearing structural element is selected from a group consisting of a fuselage, a wing, and an empennage of an aircraft. 17. A method of forming a conformal integrated broadband stacked multi-spiral antenna assembly, comprising: forming a stacked multi-spiral antenna array comprising two or more stacked spiral antennas with each pair of adjacent stacked spiral antennas separated by a low dielectric layer; forming a non-load-bearing structural element of a mobile platform by forming a composite laminate comprising a non-conductive material; forming a via in the composite laminate that provides a pathway for coaxial cables providing a center feed to each of the two or more stacked spiral antennas; and embedding the stacked multi-spiral antenna array in the non-load-bearing structural element to form the conformal integrated broadband stacked multi-spiral antenna assembly, wherein the two or more stacked spiral an