Discrimination of low power RF signals using phase modulation with injection locked lasers

What is claimed is: 1. A RF signal discrimination apparatus, comprising: a master laser; an optical phase modulator configured to receive a plurality of RF signals at an RF input and further configured to receive an output from the master laser at an optical input; a slave laser operating below a lasing threshold configured to receive a modulated output from the optical phase modulator; an optical filter configured to filter a received mixed signal generated by the slave laser; and a photodetector receiving the filtered mixed signal and configured to recover a RF signal from the plurality of RF signals, wherein a frequency of a sideband of the recovered RF signal corresponds to a mode of the slave laser. 2. The RF signal discrimination apparatus of claim 1 , further comprising: an optical circulator positioned between the optical phase modulator, the slave laser, and the optical filter, wherein the optical circulator is configured to receive the modulated output from the optical phase modulator and output the modulated output to be received at the slave laser, and wherein the optical circulator is further configured to receive the mixed signal from the slave laser and output the mixed signal to be received by the optical filter. 3. The RF signal discrimination apparatus of claim 1 , wherein RF signals of the plurality of RF signals not having a sideband with a frequency corresponding to a mode of the slave laser are suppressed. 4. The RF signal discrimination apparatus of claim 1 , wherein the mode of the slave laser provides a gain to the sideband with the frequency corresponding to the mode. 5. The RF signal discrimination apparatus of claim 1 , wherein the slave laser is a multi-mode laser. 6. The RF signal discrimination apparatus of claim 1 , wherein the slave laser is a single mode laser. 7. The RF signal discrimination apparatus of claim 1 , wherein the maser laser is configured to sweep a plurality of frequencies. 8. The RF signal discrimination apparatus of claim 1 , wherein the master laser is a first master laser, the apparatus further comprising: a second maser laser; the optical phase modulator configured to receive an output from the second master laser at the optical input. 9. The RF signal discrimination apparatus of claim 8 , wherein the optical modulator is configured to receive the optical output from the second master laser at an alternate optical input. 10. The RF signal discrimination apparatus of claim 1 , wherein the photodetector is a square-law optical detector. 11. The RF signal discrimination apparatus of claim 1 , wherein the slave laser is a first slave laser and the optical filter is a first optical filter, the apparatus further comprising: a second slave laser operating below a lasing threshold and configured to receive the modulated output from the optical phase modulator; a second optical filter configured to filter a received mixed signal generated by the second slave laser; and the photodetector configured to receive the filtered received mixed signals from the first and second optical filter. 12. A method of discriminating an RF signal, the method comprising: optically modulating a received plurality of RF signals onto an optical carrier generated by a master laser via a phase modulator; injecting the optically modulated plurality of RF signals into an optical output of a slave laser, filtering a mixed signal containing the optically modulated plurality of RF signals from the slave laser with an optical filter; and recovering an RF signal from the filtered mixed signal containing the optically modulated plurality of RF signals, wherein a frequency of a sideband of the recovered RF signal corresponds to a mode of the slave laser. 13. The method of claim 12 , further comprising: suppressing RF signals of the plurality of RF signals from the mixed signal containing the optically modulated plurality not having a sideband with a frequency corresponding to the mode of the slave laser. 14. The method of claim 12 , wherein recovering an RF signal comprises: recovering an RF signal having an imbalance in a magnitude of upper and lower sidebands of the RF signal; and suppressing an RF signal having balanced magnitudes of the upper and lower sidebands of the RF signal. 15. The method of claim 14 , further comprising: thresholding recovered RF signals to eliminated unwanted RF signals not suppressed. 16. The method of claim 14 , further comprising: providing a gain to a sideband of an RF signal with a frequency corresponding to the mode of the slave laser to create an imbalance in the magnitudes of the upper and lower sidebands of the RF signal.