Abstract

Abstract Based on the extended Huygens–Fresnel principle, the propagation of M × N multi-Gaussian beams in incoherent combination through turbulent atmosphere, and their beam quality are studied. The power in the bucket (PIB), β parameter and strehl ratio (SR ) are taken as the characteristic parameters of beam quality, and analytical expressions for PIB and SR are derived. It is shown that multi-Gaussian beams in turbulent atmosphere undergo three stages of evolution with increasing propagation distance z, and turbulence accelerates the evolution of the three stages which multi-Gaussian beams undergo. The turbulence results in a degradation of the beam quality, and multi-Gaussian beams with higher numbers M and N are less sensitive to the effects of turbulence than those with lower M and N. Acknowledgment This work was supported by the Foundation of the National Hi-Tech. Project of China and the Natural Science Foundation from the Education Bureau of Sichuan Province, China.