Far-field correlation of bidirectional tracking beams due to wave-front deformation in intersatellites optical communication links

In some applications of optical communication systems, such as inter-satellites optical communication, the correlation of the bidirectional tracking beams changes in far-field as a result of wave-front deformation. Far-field correlation model with wave-front deformation on tracking stability is established. Far-field correlation function and factor have been obtained. Combining with parameters of typical laser communication systems, the model is corrected. It shows that deformation pointing-tracking errors A θ_A and B θ_E, far-field correlation factor depend on RMS of deformation error rms, which decline with a increasing rms including Tilt and Coma. The principle of adjusting far-field correlation factor with wavefront deformation to compensate deformation pointing-tracking errors has been given, through which the deformation pointing-tracking error is reduced to 18.12 (Azimuth) and 17.65 (Elevation). Work above possesses significant reference value on optimization design in inter-satellites optical communication.