Beam wandering of quantization light in a turbulent link of anisotropic marine-atmosphere

We study the effects of turbulence on the wander of the quantization Gaussian beam propagation in anisotropic marine-atmosphere. The theoretical expression of the beam wandering is derived based on the turbulent spectrum of the anisotropic marine atmosphere and the effective photon number operator of a quantization light. The spatial coherence radius of a spherical wave also be acquired. We can mitigate the beam wander in image plane by selecting larger diameter of the receiving aperture and larger waist radius of the light beam. The position center of the beam increases as the increasing of the transmission distance, the refractive index structure parameter and the outer scale. (C) 2017 Elsevier GmbH. All rights reserved.