Satellite-based phased array calibration

What is claimed is: 1. A method for subarray element level calibration, comprising: illuminating a satellite having a known position at a first time with a first signal using a transmit array of a phased array radar system; receiving signal return from the satellite at a receive array of the radar system, wherein the receive array has subarrays and a first one of elements in respective subarrays are active; determining, using a computer processor of the radar system, a first plane front for the signal return associated with the first time; illuminating the satellite at a second time with a second signal using the transmit array; receiving signal return associated with the second time from the satellite at the receive array, wherein a second one of elements in the respective arrays are active; determining, using the computer processor, a second plane front for the signal return associated with the second time; compensating for movement of the satellite between the first and second times; calibrating the first ones of elements in the subarrays in relation to the second ones of elements in the subarrays using the first and second plane fronts; and repeating until elements in the subarrays are calibrated with respect to each other. 2. The method according to claim 1 , further including measuring change in insertion phase and phase slope for the signal returns for the first and second times. 3. The method according to claim 1 , further including adjusting amplitude gain to compensate for the satellite movement. 4. The method according to claim 1 , further including using a second satellite for calibration for the subarray element calibration. 5. The method according to claim 1 , further including verifying the calibration using a Fourier Gauge system. 6. The method according to claim 1 , wherein at least one of the subarrays includes eight elements. 7. The method according to claim 1 , further including using a set of reference elements in the subarrays to measure changes in insertion phase and phase slope from pulse to pulse. 8. The method according to claim 7 , further including calibrating elements in the set of reference elements. 9. An article, comprising: a non-transitory storage medium having stored instructions that enable a machine to perform subarray element level calibration, the instructions to: illuminate a satellite having a known position at a first time with a first signal using a transmit array of a phased array radar system; receive signal return from the satellite at a receive array of the radar system, wherein the receive array has subarrays and a first one of elements in respective subarrays are active; determine, using a computer processor of the radar system, a first plane front for the signal return associated with the first time; illuminate the satellite at a second time with a second signal using the transmit array; receive signal return associated with the second time from the satellite at the receive array, wherein a second one of elements in the respective arrays are active; determine, using the computer processor, a second plane front for the signal return associated with the second time; compensate for movement of the satellite between the first and second times; calibrate the first ones of elements in the subarrays in relation to the second ones of elements in the subarrays using the first and second plane fronts; and repeat until elements in the subarrays are calibrated with respect to each other. 10. The article according to claim 9 , further including instructions to measure change in insertion phase and phase slope for the signal returns for the first and second times. 11. The article according to claim 9 , further including instructions to adjust amplitude gain to compensate for the satellite movement. 12. The article according to claim 9 , further including instructions to use a second satellite for calibration for the subarray element calibration. 13. The article according to claim 9 , further including instructions to verify the calibration using a Fourier Gauge system. 14. The article according to claim 9 , wherein at least one of the subarrays includes eight elements. 15. The article according to claim 9 , further including instructions to use a set of reference elements in the subarrays to measure changes in insertion phase and phase slope from pulse to pulse. 16. The article according to claim 15 , further including instructions to calibrate elements in the set of reference elements. 17. A method for subarray level calibration, comprising: illuminating a satellite having a known position at a first time with a signal using a transmit array of a phased array radar system; receiving signal return from the satellite at a receive array of the radar system, wherein the receive array has subarrays and selected elements of the subarrays are activated as reference elements; measuring the signal return at the reference elements; determining, using a computer processor of the radar system, a first plane front for the signal return associated with the first time; comparing the first plane front to an expected plane front based on the known satellite position; and determining, using the computer processor, calibration of the subarrays relative to each other from the comparing of the first plane front to the expected plane front. 18. The method according to claim 17 , further including using a second satellite for further calibration at the subarray level. 19. The method according to claim 17 , further including achieving at least six degree, 1.0 dB rms calibration accuracy in a single pass of the satellite. 20. An article, comprising: a non-transitory storage medium having stored instructions that enable a machine to perform subarray level calibration, the instructions to: illuminate a satellite having a known position at a first time with a signal using a transmit array of a phased radar system; receiving signal return from the satellite at a receive array of the radar system, wherein the receive array has subarrays and selected elements of the subarrays are activated as reference elements; measure the signal return at the reference elements; determine, using a computer processor of the radar system, a first plane front for the signal return associated with the first time; compare the first plane front to an expected plane front based on the known satellite position; and determine, using the computer processor, calibration of the subarrays relative to each other from the comparing of the first plane front to the expected plane front.