Signal-to-noise ratio with adaptive optics compensation in non-Kolmogorov weak turbulent atmosphere.

This study investigates the average signal-to-noise ratio $ \left\langle {\textrm{SNR}} \right\rangle $ ⟨ SNR ⟩ at the shot-noise limited receiver of an optical wireless communication system (OWC) that uses collimated Gaussian beam with adaptive optics correction in non-Kolmogorov weak turbulent atmosphere. $ \left\langle {\textrm{SNR}} \right\rangle $ ⟨ SNR ⟩ and the variation in the percentage $ \left\langle {\textrm{SNR}} \right\rangle $ ⟨ SNR ⟩ are calculated and the results are presented against various adaptive optics correction modes, non-Kolmogorov power-law exponent, receiver aperture size, Gaussian beam source size, photodetector quantum efficiency, electronic bandwidth, link length, and turbulence strength. Adaptive optics correction is analyzed for tilt, defocus, astigmatism, coma and trefoil modes and their variations. The effects of adaptive optics compensation are examined that cause an increase in SNR, hence improve the performance of an OWC system using collimated Gaussian beam and operating in the non-Kolmogorov weak turbulent atmosphere. [ABSTRACT FROM AUTHOR]