By Vladimir P. Lukin, Boris V. Fortes
As a result huge program of adaptive optical platforms, an knowing of optical wave propagation in randomly inhomogeneous media has develop into crucial, and a number of other numerical types of person AOS elements and of effective correction algorithms were built. This monograph includes unique descriptions of the mathematical experiments that have been designed and conducted in the course of greater than a decade's worthy of research.
- Preface to the English variation
- Mathematical Simulation of Laser Beam Propagation within the surroundings
- Modeling an Adaptive Optics method
- Adaptive Imaging
- Minimization and section Correction of Thermal Blooming of High-Power Beams
- A Reference Beacon as a Key component to an Adaptive Optics procedure
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Additional info for Adaptive Beaming and Imaging in the Turbulent Atmosphere
V. Bykov, Numerical Simulation in Statistical Radiotechnics, Sov. Radio, Moscow, 1971. Mathematical Simulation of Laser Beam Propagation in the Atmosphere 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. A. D. Duncan, “Simulation atmospherically degraded beams. II. Polynomial approach,” J. Opt. Soc. 1218, 1975. A. D. Duncan, “Simulation of atmospherically degraded beams. I. Extended Fourier approach,” J. Opt. Soc. 10, 1975. E. S. Chesnokov, “Model presentation of atmospheric distortions for numerical analysis of statistical characteristics of optical beams,” Atm.
25. 26. A. D. Duncan, “Simulation atmospherically degraded beams. II. Polynomial approach,” J. Opt. Soc. 1218, 1975. A. D. Duncan, “Simulation of atmospherically degraded beams. I. Extended Fourier approach,” J. Opt. Soc. 10, 1975. E. S. Chesnokov, “Model presentation of atmospheric distortions for numerical analysis of statistical characteristics of optical beams,” Atm. 1294–1297, 1991. V. P. Lukin, “Modeling of an image observed through a turbulent atmosphere,” Proc. SPIE Vol. 1688, pp. 477–488, 1992.
39. A. E. Siegman, “Diffraction calculation using fast Fourier transform methods,” Proc. IEEE, 62, No. 3, pp. 410–412, 1974. 40. A. R. Morris, “Equivalent thin lens model for thermal blooming compensation,” Appl. , 17, pp. 2575–2579, 1978. 41. M. Born and E. Wolf, Principles of Optics, Pergamon, New York, 1959. 42. J. Noll, “Zernike polynomials and atmospheric turbulence,” J. Opt. Soc. , 66, No. 207–211, 1976. 43. E. Novoseller, “Zernike-ordered adaptive-optics correction of thermal blooming,” J.
Adaptive Beaming and Imaging in the Turbulent Atmosphere by Vladimir P. Lukin, Boris V. Fortes