Optical communication terminal

What is claimed is: 1. An optical communication terminal comprising: a beam splitter configured to transmit light of a first wavelength and to reflect light of a second wavelength; one or more light sources configured to emit light of the first wavelength from a first emission location and to emit light of the second wavelength from a second emission location; one or more detectors configured to detect, at a first detection location, light of the first wavelength, and to detect, at a second detection location, light of the second wavelength; a steering mirror; and wherein the steering mirror and the beam splitter are arranged such that, while the steering mirror has a first orientation, (i) light of the first wavelength that is emitted from the first emission location is directed for transmission toward a remote terminal, and (ii) light of the second wavelength that is received from the remote terminal is directed toward the second detection location, and wherein the steering mirror and the beam splitter are further arranged such that, while the steering mirror has a second orientation, (i) light of the second wavelength that is emitted from the second emission location is directed for transmission toward the remote terminal, and (ii) light of the first wavelength received from the remote terminal is directed toward the first detection location. 2. The optical communication terminal of claim 1 , further comprising: a controller configured to (i) make a determination to switch between modes of full duplex communication, and (ii) responsive to making the determination, cause the orientation of the steering mirror to change between the first orientation and the second orientation. 3. The optical communication terminal of claim 2 , wherein the controller is further configured to: while the steering mirror has the first orientation, operate the optical communication terminal in a first mode of full duplex communication by: (i) causing the one or more light sources to emit light of the first wavelength from the first emission location, modulated based on output data, and (ii) extracting input data based on light of the second wavelength, detected by the one or more detectors at the second detection location; and while the steering mirror has the second approximate orientation, operate the optical communication terminal in a second mode of full duplex communication by: (i) causing the one or more light sources to emit light of the second wavelength from the second emission location, modulated based on output data, and (ii) extracting input data based on light of the first wavelength, detected by the one or more detectors at the first detection location. 4. The optical communication terminal of claim 1 , wherein the remote terminal is situated in a particular direction within a field of view of the optical communication terminal, and wherein the steering mirror is configured to have a range of orientations so as to direct light for transmission to, and to be received from, respective directions spanning the field of view, and wherein, for a given one of the respective directions, the steering mirror is configured to have one of two approximate orientations, one of which directs light of the first wavelength emitted from the first emission location for transmission in the given one of the respective directions and also directs light of the second wavelength received from the given one of the respective directions toward the second detection location, and the other of which directs light of the second wavelength emitted from the second emission location for transmission in the given one of the respective directions and also directs light of the first wavelength received from the given one of the respective directions toward the first detection location. 5. The optical communication terminal of claim 1 , further comprising: an orientation feedback sensor including a photo-sensitive array situated to be illuminated by at least some light reflected by the steering mirror; and a controller configured to: (i) obtain a measurement of light illuminating the photo-sensitive array, and (ii) cause the orientation of the steering mirror to change based on the obtained measurement. 6. The optical communication terminal of claim 5 , wherein the controller is further configured to: (i) determine a centroid position, on the photo-sensitive array, of the illuminating light, and (ii) change the orientation of the steering mirror so as to align the centroid position with one of a first target position or a second target position, wherein the first and second target positions correspond to the first and second orientations of the steering mirror, respectively. 7. The optical communication terminal of claim 5 , further comprising: an alignment laser source configured to emit laser light of a third wavelength that is directed toward the steering mirror for transmission toward the remote terminal; and at least one additional beam splitter configured to separate received light of the third wavelength from light of the first and second wavelengths, wherein the additional beam splitter is arranged such that the light of the third wavelength received from the remote terminal is directed toward the photo-sensitive array of the orientation feedback sensor. 8. The optical communication terminal of claim 1 , wherein a first pair of optical paths alternately traversed by light of the first wavelength includes a reception path defined between the steering mirror and the first detection location and a transmission path defined between the steering mirror and the first emission location, wherein a second pair of optical paths alternately traversed by light having the second wavelength includes a reception path defined between the steering mirror and the second detection location and a transmission path defined between the steering mirror and the second emission location, and wherein an angular separation between the first pair of optical paths is approximately equal to an angular separation between the second pair of optical paths. 9. The optical communication terminal of claim 1 , further comprising a frame to which the beam splitter, the steering mirror, the first and second emission locations, and the first and second detection locations are mounted. 10. The optical communication terminal of claim 1 , wherein the one or more light sources include: a first laser light source configured to emit data modulated laser light of the first wavelength; and a second laser light source configured to emit data modulated laser light of the second wavelength. 11. The optical communication terminal of claim 1 , wherein the one or more detectors include: a first avalanche photodiode configured to detect data modulated laser light of the first wavelength; and a second avalanche photodiode configured to detect data modulated laser light of the second wavelength. 12. The optical communication terminal of claim 1 , further comprising: multiple optical fibers that optically link the one or more light sources to each of the first and second emission locations and the one or more detectors to each of the first and second detection locations. 13. The optical communication terminal of claim 1 , further comprising: a first wavelength-selective filter configured to transmit light having the first wavelength, and not transmit light having the second wavelength, wherein the first wavelength-selective filter is situated between the beam splitter and both the first emission location and the first detection location; and a second wavelength-selective filter configured to transmit light having the s