ing at the problem of ground-space slope reverse modulation wireless optical (FSO) communication under the influence of atmospheric turbulence, the optical intensity scintillation under the reverse modulation slant path link is studied based on the three-layer height spectrum model, and the probability density function expression of the atmospheric turbulence fading coefficient under weak turbulence is derived based on this formula, the average outage probability, average bit error rate and average channel capacity of the system are deeply studied, and the influence of factors such as zenith angle, turbulence intensity and receiving aperture size on the communication performance of the system are analyzed. The research results show that in the case of low signal-to-noise ratio and long-distance communication, the receiver aperture is appropriately increased, and the ground-space reverse modulation slant path wireless optical communication system can still maintain good communication performance. With the decrease of the zenith angle and the refractive index structure constant of the near-earth atmosphere, the influence of turbulence on the slant path communication link is obviously weakened.

ing at the shortcomings of traditional laser resonator composed of flat or spherical mirrors that require high precision adjustment and allow a small rotation misalignment angle, the Luneburg lens and spherical total reflection surface are combined as beam retroreflective devices. We performed numerical simulations on the reflection characteristics of the retroreflector under different incident angles of Gaussian beams and different distances between the central axis and the optical axis of the Luneburg lens. The results demonstrate that even when the linearity is as small as one-tenth of the wavelength of the light wave, the reflectors can still achieve good directivity and retroreflection with stable reflected amplitude for incident Gaussian beam distributed in a large range in the angular and lateral direction. Therefore, it is theoretically feasible to use it as a laser optical resonator mirror, and it has the advantages of low adjustment requirements, large cavity length lateral, and angular movement range. And the size of the retroreflector is small, which is easy to realize the miniaturization of the resonator mirror.

ing at the influence of the polarization aberration caused by the freeform surface on the imaging quality and measurement accuracy of the system, the polarization aberration analysis method of the freeform off-axis optical system with fringe Zernike polynomial is proposed based on Jones representation, and an analytical model of polarization aberration for freeform reflection optical system is constructed, and the effects of Z₅ and Z₆ in fringe Zernike polynomials on the polarization aberration distribution of off-axis field of view optical systems are analyzed. Through the tracing of the polarized light in the full field of view, it is verified that the freeform surface acts on the three polarization aberrations of the field of view off-axis optical system, such as phase aberration, diattenuation, and retardance. A full-field polarization aberration analysis is carried out for a large field of view off-axis three-mirror optical system with freeform surfaces. The analysis results show that the phase aberration distribution is consistent with the vector height distribution of the freeform surface, and the two-direction attenuation and phase delay are 50% of the total system.