Systems and methods for reducing intermodulation for electronically controlled adaptive antenna arrays

What is claimed is: 1. A system comprising: a shared feed; an adaptive array of unit cells, wherein each unit cell comprises a radiating element and an adjustment element co-located with the radiating element, wherein the adjustment element comprises a tunable material and the adjustment element is controlled to reduce amounts of signal intermodulation between two or more unit cells in the adaptive array of unit cells; and a transition control component configured to selectively induce a change in an electromagnetic property of the tunable material to control at least one of an activation or a degree of radiation of the radiating element; wherein the tunable material is substantially nonresponsive to electromagnetic fields provided by the shared feed prior to the induced change in the electromagnetic property of the tunable material. 2. The system of claim 1 , wherein the tunable material comprises a phase change material. 3. The system of claim 1 , wherein the tunable material comprises a state change material. 4. The system of claim 3 , wherein the state change material comprises a material that continuously changes the electromagnetic property in response to an applied stimulus. 5. A system comprising: a shared feed; an adaptive array of unit cells, wherein each unit cell comprises a radiating element and an adjustment element co-located with the radiating element, wherein the adjustment element comprises a tunable material and the adjustment element is controlled to reduce amounts of signal intermodulation between two or more unit cells in the adaptive array of unit cells; and a transition control component configured to selectively induce a change in an electromagnetic property of the tunable material to control at least one of an activation or a degree of radiation of the radiating element; wherein the tunable material comprises a phase change material and wherein the transition control component is configured to selectively induce a phase change in the phase change material; and wherein the transition control component is configured to provide heating or cooling to the phase change material for a temperature-induced transition from a first material phase to a second material phase. 6. The system of claim 5 , wherein the phase change material comprises a pyroelectric material and wherein the temperature induced transition comprises a modification of electric polarization of the pyroelectric material as a function of temperature. 7. The system of claim 5 , wherein the transition control component is configured to increase or reduce pressure on the phase change material to induce a transition from the first material phase to the second material phase. 8. A system comprising: a shared feed; an adaptive array of unit cells, wherein each unit cell comprises a radiating element and an adjustment element co-located with the radiating element, wherein the adjustment element comprises a tunable material and the adjustment element is controlled to reduce amounts of signal intermodulation between two or more unit cells in the adaptive array of unit cells; and a transition control component configured to selectively induce a change in an electromagnetic property of the tunable material to control at least one of an activation or a degree of radiation of the radiating element; wherein the tunable material comprises a phase change material and wherein the transition control component is configured to selectively induce a phase change in the phase change material; and wherein the transition control component is configured to increase or reduce a magnetic field induced in the phase change material to induce a transition from a first material phase to a second material phase. 9. A system comprising: a shared feed; an adaptive array of unit cells, wherein each unit cell comprises a radiating element and an adjustment element co-located with the radiating element, wherein the adjustment element comprises a tunable material and the adjustment element is controlled to reduce amounts of signal intermodulation between two or more unit cells in the adaptive array of unit cells; and a transition control component configured to selectively induce a change in an electromagnetic property of the tunable material to control at least one of an activation or a degree of radiation of the radiating element; wherein the tunable material comprises the state change material and wherein the transition control component is configured to selectively change the electromagnetic property of the state change material. 10. The system of claim 9 , wherein the state change material comprises a paraelectric material. 11. The system of claim 9 , wherein the transition control component is configured to provide heating or cooling to the state change material for a temperature induced transition in the electromagnetic property. 12. The system of claim 11 , wherein the transition control component is configured to selectively activate heating or cooling elements co-located with the unit cells to induce or maintain the transition. 13. The system of claim 9 , wherein the transition control component is configured to increase or reduce an electric field incident on the state change material to induce the change in the electric or magnetic property. 14. The system of claim 13 , wherein the state change material comprises a multiferroic material. 15. The system of claim 9 , wherein the transition control component is configured to increase or reduce a magnetic field incident on the state change material to induce the change in the electromagnetic property. 16. A system comprising: a shared feed; an adaptive array of unit cells, wherein each unit cell comprises a radiating element and an adjustment element co-located with the radiating element, wherein the adjustment element comprises a tunable material and the adjustment element is controlled to reduce amounts of signal intermodulation between two or more unit cells in the adaptive array of unit cells; and a transition control component configured to selectively induce a change in an electromagnetic property of the tunable material to control at least one of an activation or a degree of radiation of the radiating element; wherein the radiating elements comprise resonant elements, wherein the adjustment element corresponding to a radiating element is configured to modify a response of the resonant elements to the shared feed to control the at least one of the activation or the degree of radiation of the corresponding radiating element. 17. A method comprising: delivering an electromagnetic signal to a shared feed; feeding an electromagnetic signal from the shared feed to an adaptive array of unit cells, wherein each unit cell comprises a radiating element and an adjustment element co-located with the radiating element; controlling at least one adjustment element to reduce amounts of signal intermodulation between two or more unit cells in the adaptive array of unit cells; and modifying, via a transition control component of the at least one adjustment element, an electromagnetic property of a tunable material of the at least one adjustment element to control at least one of an activation or a degree of radiation of the radiating element; wherein the tunable material comprises a phase change material and wherein the transition control component is configured to selectively induce a phase change in the phase change material; and wherein the transition control component is configured to provide heating or cooling to the phase change material for a tempera