Vol. 27, issue 11, article # 2
Lukin V. P. Remaining distortions conditioned by the dimension of a guiding source. // Optika Atmosfery i Okeana. 2014. V. 27. No. 11. P. 949-956 [in Russian].Copy the reference to clipboard
Abstract:
Efficiency of the adaptive focusing of coherent beam of radiation is examined in a turbulent atmosphere. The calculation of distributing of averaged intensity of the field of coherent laser beam focused in a turbulent environment with the use of adaptive phase correction of image of non-coherent source as a guiding source is executed.
Keywords:
correction, guiding source, image, phase, coherence
References:
1. Lukin V.P. Korrekcija sluchajnyh uglovyh smeshhenij opticheskih puchkov // Kvant. jelektron. 1980. V. 7, N 6. P. 1270–1279.
2. Lukin V.P. Sravnitel'nye harakteristiki nekotoryh algoritmov korrekcii // Kvant. jelektron. 1981. V. 8, N 10. P. 2145–2153.
3. Lukin V.P., Матюхин В.Ф. Adaptivnaja korrekcija izobrazhenija // Kvant. jelektron. 1983. V. 10, N 12. P. 2465–2473.
4. Lukin V.P., Charnockij M.I. Ispol'zovanie vzaimnosti fluktuacij dlja adaptivnogo upravlenija parametrami opticheskoj volny // VI Vsesojuz. simpoz. po rasprostraneniju lazernogo izluchenija v atmosfere. Tomsk, 1981. Part III. P. 83–87.
5. Lukin V.P., Charnockij M.I. Princip vzaimnosti i adaptivnoe upravlenie parametrami opticheskogo izluchenija // Kvant. jelektron. 1982. V. 9, N 5. P. 952–958.
6. Lukin V.P., Zuev V.E. Construсtion of a Closed Model of the Adaptive Optical System Based on a Reference Wave // III Int. conf. «Advanced Laser Sciences». Atlantic-City, USA. 1987.
7. Lukin V.P., Charnockij M.I. Optimal'naja fazovaja korrekcija sfokusirovannyh puchkov v sluchajno-neodnorodnoj srede // Optika atmosf. 1990. V. 3, N 12. P. 1294–1299.
8. Lukin V.P. Atmosfernaja adaptivnaja optika. Novosibirsk: Nauka, 1986. 285 p.
9. Lukin V.P. Nekotorye osobennosti formirovanija opornyh istochnikov // Optika atmosf. i okeana. 2006. V. 19, N 12. P. 1021–1028.
10. Shapiro J.H. Reciprocity of the turbulent atmosphere // J. Opt. Soc. Amer. 1971. V. 61, N 4. P. 492–495.
11. Lukin V.P., Charnockij M.I. O rasprostranenii obrashhennyh voln v sluchajno-neodnorodnoj srede // Izv. vuzov. Fiz. 1985. N 11. P. 51–63.
12. Michau V., Rousset G., Fontanella J.C. Wavefront sensing from extended sources // Proc. Workshop on Real-Time and Post-Facto Solar Image Correction. NSO. Sacramento Peak, USA. 1992. P. 91–102.
13. Lukin V.P., Charnockij M.I. Ob ispol'zovanii metoda Gartmana dlja opredelenija harakteristik volnovogo fronta izluchenija // Optika i spektroskopija. 1989. V. 66, issue 5. P. 1131–1133.
14. Lukin V.P., Botygina N.N., Emaleev O.N., Konyaev P.A. Wavefront sensors for adaptive optical systems // Measur. Sci. Rev. 2010. V. 10, N 3. P. 101–106.
15. Gurvich A.S., Kon A.I., Mironov V.L., Hmelevcov S.S. Lazernoe izluchenie v turbulentnoj atmosfere. M.: Nauka, 1976. 277 p.
16. Lukin V.P. Applications of reflected waves for reference source forming // Proc. SPIE. 2004. V. 5743. P. 50–62.
17. Lukin V.P. Adaptive system for laser beam formation in atmosphere with the use of incoherent images as reference // J. Opt. 2013. V. 15, N 4. P. 044009.
18. Khizhnyak A.I., Markov V.B. Turbulence-corrected adaptive laser beam focusing on a remote-resolved target // Proc. SPIE. 2012. V. 8238. P. 82380K-1.
19. Lukin V.P. Vozmozhnosti nacelivanija opticheskih puchkov cherez turbulentnuju atmosferu // Optika atmosf. i okeana. 2005. V. 18, N 1–2. P. 75–85.
20. Lukin V.P. Adaptive system for laser beam forming in atmosphere with the use of incoherent images as a reference sources // Summaries of 15th Int. conf. «Laser Optics-2012». St.-Peterburg, Russia. 2012. P. 85.
21. Lukin V.P. Adaptivnaja sistema formirovanija lazernyh puchkov v atmosfere, ispol'zujushhaja nekogerentnye izobrazhenija v kachestve opornyh istochnikov // Optika atmosf. i okeana. 2013. V. 26, N 2. P. 175–181.
22. Botygina N.N., Kovadlo P.G., Kopylov E.A., Lukin V.P., Tuev M.V., Shihovcev A.Ju. Ocenka kachestva astronomicheskogo videnija v meste raspolozhenija Bol'shogo solnechnogo vakuumnogo teleskopa iz opticheskih i meteorologicheskih izmerenij // Optika atmosf. i okeana. 2013. V. 26, N 11. P. 942–947.
23. Lukina N.P. Whether is the science a part of culture? // Proc. SPIE «Wave Propagation in the Atmosphere and Adaptive Optics». 2001. V. 4338. P. 4–7.
24. Mironov V.L., Nosov V.V., Chen B.N. Drozhanie opticheskih izobrazhenij lazernyh istochnikov v turbulentnoj atmosfere // Izv. vuzov. Radiofiz. 1980. V. 23, N 4. P. 461–470.
25. Fried D.L. Optical resolution through a randomly inhomogeneous medium for very long and very short exposures // J. Opt. Soc. Amer. 1966. V. 56, N 10. P. 1372–1379.
26. Tofsted D.H. Extended high-angular-frequency analysis of turbulence effects on short-exposure imaging // Opt. Eng. 2014. V. 53, N 4. P. 044112.
27. Lukin V.P. Influence of the source spectrum on the optical measurements of turbulence // Appl. Opt. 2009. V. 48, N 1. P. A93–A97.
28. Zuev V.E., Belov V.V., Veretennikov V.V. Teorija sistem v optike dispersnyh sred. Tomsk: Izdatelstvo SO RAN, 1997. 402 p.