Wavefront sensing and adaptive control in phased array of fiber collimators

Svetlana L. Lachinova; Mikhail A. Vorontsov

doi:10.1117/12.875943

10 February 2011 Wavefront sensing and adaptive control in phased array of fiber collimators

Svetlana L. Lachinova, Mikhail A. Vorontsov

Proceedings Volume 7924, Atmospheric and Oceanic Propagation of Electromagnetic Waves V; 79240F (2011) https://doi.org/10.1117/12.875943
Event: SPIE LASE, 2011, San Francisco, California, United States

Abstract

A new wavefront control approach for mitigation of atmospheric turbulence-induced wavefront phase aberrations in coherent fiber-array-based laser beam projection systems is introduced and analyzed. This approach is based on integration of wavefront sensing capabilities directly into the fiber-array transmitter aperture. In the coherent fiber array considered, we assume that each fiber collimator (subaperture) of the array is capable of precompensation of local (onsubaperture) wavefront phase tip and tilt aberrations using controllable rapid displacement of the tip of the delivery fiber at the collimating lens focal plane. In the technique proposed, this tip and tilt phase aberration control is based on maximization of the optical power received through the same fiber collimator using the stochastic parallel gradient descent (SPGD) technique. The coordinates of the fiber tip after the local tip and tilt aberrations are mitigated correspond to the coordinates of the focal-spot centroid of the optical wave backscattered off the target. Similar to a conventional Shack-Hartmann wavefront sensor, phase function over the entire fiber-array aperture can then be retrieved using the coordinates obtained. The piston phases that are required for coherent combining (phase locking) of the outgoing beams at the target plane can be further calculated from the reconstructed wavefront phase. Results of analysis and numerical simulations are presented. Performance of adaptive precompensation of phase aberrations in this laser beam projection system type is compared for various system configurations characterized by the number of fiber collimators and atmospheric turbulence conditions. The wavefront control concept presented can be effectively applied for long-range laser beam projection scenarios for which the time delay related with the double-pass laser beam propagation to the target and back is compared or even exceeds the characteristic time of the atmospheric turbulence change - scenarios when conventional target-in-the-loop phase-locking techniques fail.

Citation Download Citation

Svetlana L. Lachinova and Mikhail A. Vorontsov "Wavefront sensing and adaptive control in phased array of fiber collimators", Proc. SPIE 7924, Atmospheric and Oceanic Propagation of Electromagnetic Waves V, 79240F (10 February 2011); https://doi.org/10.1117/12.875943

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