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A 25, — Fried, "Optimal control of laser beams for propagation through a turbulent medium," J. A 19, — Fried, "Branch point problem in adaptive optics," J. A 15, — Fried, "Variance of the Strehl ratio of an adaptive optics system," J.

A 12, — Fried, "Horizon irregularity induced by turbulence," J. Fried, "Focus anisoplanatism in the limit of infinitely many artificial-guide-star reference spots," J. Belsher, "Analysis of fundamental limits to artificial-guide-star adaptive-optics-system performance for astronomical imaging," J.

A 11, — Fried, "Atmospheric-Compensation Technology," J. Vaughn, "Branch cuts in the phase function," Appl.

Fried, "Time-delay-induced mean-square error in adaptive optics," J. A 7, — Fried, "Greenwood frequency measurements," J. Vaughn, "Dependence of the Knox-Thompson transfer function on the difference of spatial frequencies," J.

Fried, "Image-position error associated with a quadrant detector," J. Mevers, "Thermal-blooming time constant," J. Fried, "Anisoplanatism in adaptive optics," J. Fried, "Laser eye safety: Fried, "Resolution, signal-to-noise ratio, and measurement precision: Fried, "Resolution, signal-to-noise ration, and measurement precision," J. Fried, "Probability of getting a lucky short-exposure image through turbulence," J. Fried, "Propagation of the mutual coherence function for an infinite plane wave through a turbid medium," Opt.

Fried, "Least-square fitting a wave-front distortion estimate to an array of phase-difference measurements," J. Fried, "Evaluation of ro for propagation down through the atmosphere: Fried, "Statistics of the laser radar cross section of a randomly rough targe," J. Fried carried out the first analysis evaluating and establishing the feasibility of the use of atmospheric laser back scatter to control adaptive optics—a concept which now goes by the name of laser guide-star.

He then designed, managed the development of the hardware for, and supervised an experiment that successfully demonstrated the validity of the laser guide-star concept. From when he founded the company till when he sold the company , Dr. From to he was a professor of physics at the Naval Postgraduate School, Monterey, California. Currently, he works as an independent consultant. Fried has done work in a variety of other electro-optics related fields such as the suppression of infrared background clutter in moving target detection systems; analysis of laser speckle statistics; analysis of the effect of photo-detection-event driven shot noise upon the precision of various types of optical measurements; the design and development of low-temperature-optics long-wavelength infrared sensors for use in mid course ballistic missile defense; and in the design and performance analysis for space-based infrared sensors for missile and aircraft detection.

He has also been involved in the search for a sound approach to the mid-course decoy discrimination problem for ballistic missile defense. From Wikipedia, the free encyclopedia. This article includes a list of references , related reading or external links , but its sources remain unclear because it lacks inline citations.

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