Laser Beam Quality of Airy Beam in the Jet Engine Exhaust Induced Turbulence

Abstract: Theoretical predictions of laser beam interactions with jet-engine-exhaust-induced turbulence are of importance for optimization of various optical systems, including LIDARs and airborne laser measurement systems. This paper is based on the extended Huygens–Fresnel diffraction integral and the Wigner distribution function, combined with the recently proposed power spectral density function of atmospheric turbulence induced by jet engine exhaust, to derive the formula for the quality factor of a partially coher… Show more

“…The analysis shows that the quality factor increases as the structure is constant and the outer scale of the turbulence decreases. At the same time, the quality factor decreases as the inner scale of the turbulence and the wavelength of the laser beam increase [10]. A study also examines the effect of both jet engines and atmospheric turbulence on GSM array beams by deriving different analytical expressions.…”

Derivation of Rytov variance for jet engine-induced turbulence

“…The analysis shows that the quality factor increases as the structure is constant and the outer scale of the turbulence decreases. At the same time, the quality factor decreases as the inner scale of the turbulence and the wavelength of the laser beam increase [10]. A study also examines the effect of both jet engines and atmospheric turbulence on GSM array beams by deriving different analytical expressions.…”

Derivation of Rytov variance for jet engine-induced turbulence

Impact of joint turbulence of jet engine and marine environment on the propagation quality of partially coherent generalized Laguerre–Gaussian correlated Schell model beams