Seeker having scanning-snapshot FPA

What is claimed is: 1. An imager comprising; a focal plane array (FPA); and an optical system communicatively coupled to the FPA, wherein said optical system is configured to perform a method comprising: focusing laser energy comprising a first field-of-view to a first sub-window of said FPA; focusing images comprising a second field-of-view identical to said first field-of-view to a second sub-window of said FPA; pixel scanning said first sub-window of said FPA at an exposure rate that matches a predetermined pulse repetition frequency (PRF) to thereby decode laser energy focused by said optical system to said first sub-window at said predetermined PRF; snapshot exposing said second sub-window of said FPA, thereby capturing image energy focused by said optical system to said second sub-window. 2. The imager of claim 1 , wherein the method performed by said optical system further comprises using said decoded laser energy to derive control information capable of being used to steer an ordinance to a target. 3. The imager of claim 1 , wherein the method performed by said optical system further comprises using said captured image energy to derive control information capable of being used to steer an ordinance to a target. 4. The imager of claim 3 further, wherein the method performed by said optical system further comprises locating a laser spot of said decoded laser energy on said image. 5. The imager of claim 1 wherein said decoding comprises demodulating pulse modulated data from said decoded laser energy. 6. The imager of claim 5 wherein said pulse modulated data comprises target tracking information from a target designator. 7. The imager of claim 1 , wherein the method performed by said optical system further comprises: focusing images to said first sub-window of said FPA; and snapshot exposing said first sub-window of said FPA, thereby capturing image energy focused by said optical system to said first sub-window. 8. A method comprising; focusing, using an optical system, laser energy comprising a first field-of-view to a first sub-window of an FPA; focusing, using said optical system, images comprising a second field-of-view identical to said first field-of-view to a second sub-window of said FPA, pixel scanning said first sub-window at an exposure rate that matches a predetermined pulse repetition frequency (PRF) to thereby decode laser energy focused on said first sub-window at said predetermined PRF; and snapshot exposing said second sub-window of said FPA, thereby capturing image energy focused by said optical system to said second sub-window. 9. The method of claim 8 further comprising using said decoded laser energy to derive control information capable of being used to steer ordinance to a target. 10. The method of claim 8 further comprising using said captured image energy to derive control information capable of being used to steer an ordinance to a target. 11. The method of claim 10 further comprising locating a laser spot of said decoded laser energy on said image. 12. The method of claim 8 wherein said decoding comprises demodulating pulse modulated data from said decoded laser energy. 13. The method of claim 12 wherein said pulse modulated data comprises target tracking information from a target designator. 14. The method of claim 8 further comprising: focusing images to said first sub-window of said FPA; and snapshot exposing said first sub-window of said FPA, thereby capturing image energy focused on said first sub-window. 15. A method comprising: focusing, using an optical system, laser energy to a first sub-window of a focal plane array (FPA); pixel scanning said first sub-window at an exposure rate that matches a predetermined pulse repetition frequency (PRF) to thereby decode laser energy focused on said first sub-window at said predetermined PRF; focusing image energy to a second sub-window of said FPA; snapshot exposing said second sub-window of said FPA, thereby capturing image energy focused on said second sub-window; focusing image energy to said first-sub-window of said FPA; switching said first sub-window to snapshot expose said first sub-window of said FPA, thereby capturing image energy focused on said first sub-window; and combining said image energy focused on said first sub-window with said image energy focused on said second sub-window to recover pixel resolution of said FPA by image processing super-resolution techniques.