Optical waveguide coude path for gimbaled systems having an optical coupling element

What is claimed is: 1. A dual-mode gimbaled optical system comprising: a dual-axis system gimbal having a roll axis and a nod axis and including a nod gimbal that rotates about the nod axis and a roll gimbal that rotates about the roll axis; an off-gimbal detector assembly configured to receive electromagnetic radiation; a receiver-path optical assembly configured to receive the electromagnetic radiation from object space and to direct and focus the electromagnetic radiation along a receiver optical path to the off-gimbal detector assembly, the receiver-path optical assembly including on-gimbal objective optics disposed on the nod gimbal; an optical source configured to generate an optical signal, the optical source being located off the nod gimbal; an optical fiber coupled to the optical source and configured to transport the optical signal; a nod-axis bearing assembly configured to support rotation of the nod gimbal about the nod axis, the nod axis bearing assembly including a centrally-located output ferrule mated to the optical fiber and configured to receive the optical signal from the optical fiber and to output the optical signal as an optical beam; and an optical coupling element configured to receive the optical beam from the output ferrule and to couple the optical beam into the receiver optical path and to direct the optical beam toward the on-gimbal objective optics. 2. The dual-mode gimbaled optical system of claim 1 wherein the optical coupling element is disposed approximately centered on the nod axis. 3. The dual-mode gimbaled optical system of claim 2 wherein the optical coupling element is a fold mirror. 4. The dual-mode gimbaled optical system of claim 3 wherein the fold mirror has a reflecting surface configured to reflect the optical beam toward the on-gimbal objective optics and an opposing back surface, the system further comprising a sensor disposed on the back surface of the fold mirror and configured to receive reflections of the optical beam via the on-gimbal objective optics. 5. The dual-mode gimbaled optical system of claim 1 wherein the optical coupling element is a beamsplitter. 6. The dual-mode gimbaled optical system of claim 1 wherein the receiver-path optical assembly further includes a first plurality of optical elements disposed on the dual-axis gimbal and a second plurality of off-gimbal optical elements configured to receive the electromagnetic radiation from the first plurality of optical elements and to focus the electromagnetic radiation to the detector assembly. 7. The dual-mode gimbaled optical system of claim 1 wherein the optical source is a laser source. 8. The dual-mode gimbaled optical system of claim 7 wherein the electromagnetic radiation is infrared radiation and the optical beam is a visible laser beam. 9. The dual-mode gimbaled optical system of claim 1 wherein the nod-axis bearing assembly further includes a collimating lens assembly mated to the output ferrule and configured to collimate the optical beam. 10. The dual-mode gimbaled optical system of claim 1 wherein the optical source is located on the roll gimbal. 11. A dual-mode gimbaled optical system comprising: a nod gimbal configured to rotate about a nod axis; a passive-mode off-gimbal detector assembly configured to receive emissive electromagnetic radiation from a viewed scene and to produce therefrom an image of the scene; a receiver-path optical assembly configured to receive the electromagnetic radiation from the viewed scene and to direct and focus the electromagnetic radiation along a receiver optical path to the off-gimbal detector assembly, the receiver-path optical assembly including on-gimbal objective optics disposed on the nod gimbal; an active-mode off-gimbal laser source configured to generate an optical signal; an optical fiber coupled to the laser source and configured to transport the optical signal; a nod-axis bearing assembly configured to support rotation of the nod gimbal about the nod axis, the nod axis bearing assembly including a centrally-located output ferrule mated to the optical fiber and configured to receive the optical signal from the optical fiber and to output the optical signal as an optical beam; and an on-gimbal optical coupling element configured to receive the optical beam from the output ferrule and to couple the optical beam into the receiver optical path and to direct the optical beam toward the on-gimbal objective optics. 12. The dual-mode gimbaled optical system of claim 11 further comprising a roll gimbal configured to rotate about a roll axis perpendicular to the nod axis, the laser source being disposed on the roll gimbal. 13. The dual-mode gimbaled optical system of claim 11 wherein the coupling element is a fold mirror that is disposed on and axisymmetric about the nod axis. 14. The dual-mode gimbaled optical system of claim 11 wherein the nod-axis bearing assembly further includes a collimating lens assembly mated to the output ferrule and configured to collimate the optical beam.