Litcius/Paper detail

Real-time 1.5 kHz adaptive optical system to correct for atmospheric turbulence

Alexis Kudryashov, Alexey Rukosuev, Alexander Nikitin, Ilya Galaktionov, Julia Sheldakova

2020Optics Express40 citationsDOIOpen Access PDF

Abstract

Problems of constructing an adaptive optical system intended for correcting the wavefront of laser radiation that has passed through a turbulent atmosphere are considered. To ensure high-quality wavefront correction, the frequency of the discrete system should be at least 1 kHz or more. This performance can be achieved by using FPGA as the main control element of the system. The results of a laboratory experiments of the laser beam phase fluctuations caused by turbulence, produced by the airflow of a fan heater, correction by means of the FPGA-based adaptive optical system are presented. The system efficiency was evaluated at various correction frequencies up to 1875 Hz.

Topics & Concepts

Adaptive opticsWavefrontOpticsLaserTurbulenceDeformable mirrorPhysicsFree-space optical communicationWavefront sensorMeteorologyOptical Wireless Communication TechnologiesOcular and Laser Science ResearchAdvanced optical system design