Phased-array radio frequency receiver

What is claimed is: 1 . A method of RF signal processing comprising: receiving an incoming RF signal at each of a plurality of antenna elements that are arranged in a first pattern; modulating the received RF signals from each of the plurality of antenna elements onto an optical carrier to generate a plurality of modulated signals, each modulated signal having at least one sideband; directing each of the plurality of modulated signals along a corresponding one of a plurality of optical channels, each of the plurality of optical channels having an output, the outputs of the plurality of optical channels arranged in a second pattern corresponding to the first pattern; forming a composite optical signal using light emanating from the outputs of the plurality of optical channels; and extracting, from the composite optical signal, non-spatial information contained in at least one of the received RF signals. 2 . The method of claim 1 , further comprising forming an image based on the received RF signals. 3 . The method of claim 1 , wherein the outputs of the plurality of optical channels emanate light to a free space. 4 . The method of claim 1 , further comprising isolating a sideband of each of the modulated signals. 5 . The method claim 1 , wherein the extracting step comprises directing the composite signal onto a cueing detector. 6 . The method of claim 1 , wherein the extracting step comprises directing at least a portion of the composite signal onto a signal detector and heterodyning it with an optical reference signal. 7 . The method of claim 1 , wherein the extracting step comprises identifying at least one position of an incoming RF signal. 8 . The method of claim 7 , wherein identifying at least one position comprises identifying a signal position within an interference pattern. 9 . The method claim 1 , further comprising compensating for a phase shift in at least one RF modulated optical signal. 10 . The method of claim 9 , wherein compensating for a phase shift comprises adjusting an electro-optic modulator. 11 . An RF receiver comprising: a phased-array antenna including a plurality of antenna elements arranged in a first pattern configured to receive RF signals from at least one source; a plurality of electro-optic modulators corresponding to the plurality of antenna elements, each modulator configured to modulate an optical carrier with a received RF signal to generate a plurality of modulated optical signals; a plurality of optical channels configured to carry the plurality of modulated optical signals, each of the plurality of optical channels having an output to emanate the corresponding modulated optical signal out of the corresponding optical channel, the outputs of the plurality of optical channels arranged in a second pattern corresponding to the first pattern; a composite signal channel, adjacent to the plurality of outputs of the plurality of optical channels, configured to receive the plurality of modulated optical signals, whereby a composite optical signal is generated; and a detector configured to receive the composite optical signal and to extract non-spatial information from a received RF signal. 12 . The RF receiver of claim 11 , further comprising a filter configured to isolate a sideband from at least one modulated optical signal. 13 . The RF receiver of claim 12 , wherein the filter is located within the composite signal channel. 14 . The RF receiver of claim 11 , wherein the composite signal channel comprises a free space adjacent the outputs of the plurality of optical channels. 15 . The RF receiver of claim 11 , wherein the detector is configured to identify a signal position from the composite optical signal. 16 . The RF receiver of claim 15 , wherein the signal position correlates with a spatial position of the at least one source. 17 . The RF receiver of claim 15 , wherein the detector is further configured to detect a received RF signal from at least one source based on the identified signal position. 18 . The RF receiver of claim 11 , further comprising a phase compensation detector configured to compensate for phase shifts in the modulated optical signals. 19 . The RF receiver of claim 11 , wherein the detector comprises a cueing detector configured to use the composite optical signal to identify a signal position that corresponds to a spatial position of an RF source. 20 . The RF receiver of claim 11 , further comprising: a second detector; and a spatial-light-modulator configured to direct the composite optical signal onto the second detector. 21 . A method of RF signal processing comprising: receiving an incoming RF signal at each of a plurality of antenna elements that are arranged in a first pattern; converting the incoming RF signal at each of the plurality of antenna elements to a corresponding plurality of optical signals by optically modulating at least one optical signal with the incoming RF signals to generate a plurality of modulated optical signals; directing each of the plurality of modulated optical signals along a corresponding one of a plurality of optical channels, each of the plurality of optical channels having an output, the outputs of the plurality of optical channels arranged in a second pattern corresponding to the first pattern; forming a composite optical signal using optical signals from the outputs; detecting a spatial position of a plurality of RF sources from the composite optical signal; and identifying a non-spatial attribute of at least one of the plurality of RF sources based on the composite optical signal. 22 . The method of claim 21 , further comprising isolating a sideband of at least one modulated optical signal. 23 . The method of claim 21 , further comprising forming an image based on the received RF signals. 24 . The method of claim 21 , wherein detecting a spatial position of an RF source further comprises spatial filtering. 25 . The method of claim 24 , wherein spatial filtering comprises nulling an optical signal that corresponds to an RF signal. 26 . The method of claim 21 , further comprising optically steering the composite optical signal. 27 . The method of claim 26 , wherein optically steering comprises optical phase shifting. 28 . The method of claim 21 , wherein identifying a non-spatial attribute of at least one of the plurality of RF sources comprises receiving a portion of the composite optical signal with a photodiode. 29 . The method of claim 28 , further comprising beam-splitting the composite optical signal to direct a portion of the composite optical signal to the photodiode. 30 . The method of claim 21 , further comprising filtering the composite optical signal with a spatial light modulator. 31 . The method of claim 21 , wherein identifying a non-spatial attribute of at least one of the plurality of RF sources comprises: heterodyning at least a portion of the composite optical signal with an optical reference to generate a heterodyned signal; and directing the heterodyned signal onto a photodetector. 32 . An RF receiver comprising: a phased-array antenna including a plurality of antenna elements arranged in a first pattern configured to receive RF signals from at least one source; a plurality