Antenna systems and methods for modulating an electromagnetic property of an antenna

What is claimed is: 1. An antenna system, comprising: an antenna controller configured to operably couple to control inputs of an antenna including an array of electromagnetic (EM) scattering elements having sub-wavelength spacing and carried by a body configured to propagate an EM reference wave, the antenna controller configured to: control the array of EM scattering elements, through the control inputs, to operate according to a holographic modulation pattern; and control the array of EM scattering elements to modulate a spatial holographic phase of the antenna itself over time to, on average, cause side lobes of an antenna gain of the antenna to be reduced. 2. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time by switching the antenna between the holographic modulation pattern having a first spatial holographic phase and another holographic modulation pattern having a second spatial holographic phase that is different from the first spatial holographic phase. 3. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time by switching the antenna between the holographic modulation pattern and two or more other holographic modulation patterns, the holographic modulation pattern and the two or more other holographic modulation patterns each having different spatial holographic phases. 4. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time according to a single-frequency sinusoidal function of time. 5. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time according to a rectangular periodic function of time. 6. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time according to a periodic function of time. 7. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time according to an aperiodic function of time. 8. The antenna system of claim 1 , wherein the antenna controller is configured to modulate the spatial holographic phase of the antenna over time according to a random aperiodic function of time. 9. The antenna system of claim 1 , wherein the antenna controller is configured to modulate an effective mode index of the antenna over time. 10. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time by switching the antenna between the holographic modulation pattern having a first effective mode index and a second holographic modulation pattern having a second effective mode index that is different from the first effective mode index. 11. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time by switching the antenna between the holographic modulation pattern and two or more other holographic modulation patterns, the holographic modulation pattern and the two or more other holographic modulation patterns each having different effective mode indices. 12. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time according to a single frequency sinusoidal function of time. 13. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time according to a rectangular periodic function of time. 14. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time according to a periodic function of time. 15. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time according to an aperiodic function of time. 16. The antenna system of claim 9 , wherein the antenna controller is configured to modulate the effective mode index of the antenna over time according to a random aperiodic function of time. 17. The antenna system of claim 1 , wherein the antenna controller is configured to modulate both a spatial holographic phase and an effective mode index of the antenna over time. 18. The antenna system of claim 1 , further comprising: the body; and the EM scattering elements of the array, wherein the EM scattering elements are configured to scatter EM energy at least one of: from the EM reference wave to an EM radiative wave; and from the EM radiative wave to the EM reference wave. 19. The antenna system of claim 18 , wherein the EM scattering elements are spaced at less than about one half of a wavelength of an operational frequency of the antenna system. 20. The antenna system of claim 18 , wherein the EM scattering elements are spaced at less than about one fourth of a wavelength of an operational frequency of the antenna system. 21. The antenna system of claim 18 , further comprising one or more feeds configured to deliver the EM reference wave to or receive the EM reference wave from the body. 22. The antenna system of claim 21 , further comprising signal generating circuitry configured to operably couple to and deliver a signal to the one or more feeds, the signal configured to excite the EM reference wave on or in the body. 23. The antenna system of claim 21 , further comprising signal processing circuitry configured to operably couple to and receive a signal from the one or more feeds, the signal configured to be excited from the EM reference wave on or in the body. 24. The antenna system of claim 18 , wherein the EM scattering elements are arranged in a one-dimensional arrangement. 25. The antenna system of claim 18 , wherein the EM scattering elements are arranged in a plurality of one-dimensional arrangements. 26. The antenna system of claim 18 , wherein the EM scattering elements are arranged in at least a two-dimensional arrangement. 27. The antenna system of claim 18 , wherein the EM scattering elements are arranged in at least a three-dimensional arrangement. 28. An antenna system, comprising: an antenna controller configured to operably couple to control inputs of an antenna including an array of electromagnetic (EM) scattering elements having sub-wavelength spacing and carried by a body configured to propagate an EM reference wave, the antenna controller configured to: control the array of EM scattering elements, through the control inputs, to operate according to holographic modulation patterns; and control the array of EM scattering elements to modulate a spatial holographic phase over separate segments of the antenna to, in the aggregate, cause side lobes of an antenna gain of the antenna to be reduced. 29. The antenna system of claim 28 , wherein each of the separate segments of the antenna corresponds to a separate one-dimensional arrangement of a portion of EM scattering elements of the array of EM scattering elements. 30. The antenna system of claim 28 , wherein the antenna controller is configured to modula