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ÀÍ ÑÑÑÐ. Ñåð. ãåîôèç. 1960, ¹ 12. Ñ. 1852-1865.[5] Akkermans E., Wolf P. E., Maynard R. Coherent backscattering of light bydisordered media: Analysis of the peak line shape. // Phys. Rev. Lett. 1986.V.56. P.14711474.[6] Marinyuk V. V., Rogozkin D. B. Eects of nondiusive wave propagationupon coherent backscattering by turbid media. // Laser Physics.

2009. V.19.P. 176184.[7] Lauro S.E. et al. Dielectric constant estimation of the uppermost Basal Unitlayer in the martian Boreales Scopuli region. // Icarus. 2012. V.219. P.458467.34Îñíîâíûå ïóáëèêàöèè àâòîðà ïî òåìå äèññåðòàöèè.1. Ilyushin Ya. A. Martian northern polar cap : layering and possibleimplications for radar sounding.

// Planetary and Space Science. 2004. V.52.P.1195-1207.2. Ilyushin Ya. A., Seu R., Phillips R. J. Subsurface radar sounding of theMartian polar cap: radiative transfer approach. // Planetary and SpaceScience. 2005. V.53. P.1427-1436.3. Ilyushin Ya. A. Radiative transfer in layered media: application to the radarsounding of Martian polar ices. II. // Planetary and Space Science.

2007.V.55 P.100-112.4. Èëþøèí ß. À. Èñêàæåíèÿ ñâåðõøèðîêîïîëîñíûõ ñèãíàëîâ ðàäèîëîêàòîðîâ ãëóáèííîãî çîíäèðîâàíèÿ â íåîäíîðîäíîé èîíîñôåðå. // Ðàäèîòåõíèêà è ýëåêòðîíèêà. 2008. Ò.53. Ñ.403-412.5. Ilyushin Ya. A. Impact of the plasma uctuations in the Martian ionosphereon the performance of the synthetic aperture ground-penetrating radar. //Planetary and Space Science. 2009. V.57. P.1458-1466.6. Èëþøèí ß. À.

Âëèÿíèå ôëóêòóàöèé êîíöåíòðàöèè èîíîñôåðíîé ïëàçìûíà ãëóáèííîå ðàäèîçîíäèðîâàíèå ìàðñèàíñêîãî ãðóíòà ðàäàðîì ñ ñèíòåçèðîâàííîé àïåðòóðîé. // Èçâåñòèÿ ÂÓÇîâ. Ðàäèîôèçèêà. 2009. Ò.LII.C.365-374.7. Èëþøèí ß. À. Âëèÿíèå àíèçîòðîïíûõ ôëóêòóàöèé ïëîòíîñòè èîíîñôåðíîé ïëàçìû íà ãëóáèííîå ðàäèîçîíäèðîâàíèå ñâåðõøèðîêîïîëîñíûì ðàäèîëîêàòîðîì ñ ñèíòåçèðîâàííîé àïåðòóðîé. // Êîñìè÷åñêèå èññëåäîâàíèÿ. 2010. òîì 48. C.161-168.8. Áóäàê Â. Ï., Èëþøèí ß.

À. Ó÷åò äèñïåðñèè äëèí ïóòåé ðàññåÿííîãî ñâåòà â ìàëîóãëîâîì ïðèáëèæåíèè òåîðèè ïåðåíîñà èçëó÷åíèÿ. // Îïòèêààòìîñôåðû è îêåàíà. 2010. T.23. C.102-105.9. Áóäàê Â.Ï., Èëþøèí ß.À. Óñòðàíåíèå îñîáåííîñòåé ðåøåíèÿ òðåõìåðíûõ êðàåâûõ çàäà÷ òåîðèè ïåðåíîñà èçëó÷åíèÿ. // Òåïëîâûå ïðîöåññû âòåõíèêå. 2010. Ò.

2. Ñ. 471-474.10. Áóäàê Â. Ï., Èëþøèí ß. À. Âûäåëåíèå îñîáåííîñòåé ïîëÿ ÿðêîñòè â ìóòíîé ñðåäå íà îñíîâå ìàëîóãëîâûõ ðåøåíèé òåîðèè ïåðåíîñà. // Îïòèêààòìîñôåðû è îêåàíà. 2011. T.24. C.93-100.3511. Èëþøèí ß. À., Áóäàê Â. Ï. Âû÷èñëåíèå ñâåòîâûõ ïîëåé ñîñðåäîòî÷åííûõ èñòî÷íèêîâ â ìóòíûõ ñðåäàõ ñ ñèëüíî àíèçîòðîïíûì ðàññåÿíèåì. //Îïòèêà è Ñïåêòðîñêîïèÿ. 2011. Ò.111.

Ñ.893-899.12. Èëþøèí ß. À. Àíàëèç áîêîâûõ îòðàæåíèé îðáèòàëüíîãî ãëóáèííîãî ðàäèîëîêàòîðà ñ èñïîëüçîâàíèåì ñíèìêîâ âûñîêîãî ðàçðåøåíèÿ ïîâåðõíîñòè Ìàðñà. // Ðàäèîòåõíèêà. 2010. N9. C.105-111.13. Ilyushin Ya. A., Budak V. P. Analysis of the propagation of the femtosecondlaser pulse in the scattering medium. // Computer Physics Communications.2011. V.182. P.940945.14. Ilyushin Ya. A., Budak V. P. Narrow-beam propagation in a two-dimensionalscattering medium. // J. Opt. Soc. Am.

A. 2011. V.28. P.7681.15. Ilyushin Ya. A., Budak V. P. Narrow beams in scattering media: the advancedsmall-angle approximation. // J. Opt. Soc. Am. A. 2001. V.28, P.1358136316. Ilyushin Ya. A. Coherent backscattering enhancement in highlyanisotropically scattering media: numerical solution. // Journal ofQuantitative Spectroscopy and Radiative Transfer. 2013. V.113. P.348354.17. Ilyushin Ya. A. Backscattering halo from the beam in the scattering mediumwith highly forward peaked phase function: is it feasible? // J. Opt. Soc.Am.

A. 2012. V.29. PP.19861991.18. Ilyushin Ya. A. Coherent backscattering enhancement in medium withvariable refractive index. // Journal of Quantitative Spectroscopy andRadiative Transfer. 2013. V.117. P.133139.19. Ilyushin Ya. A. Propagation of a Collimated Beam in the RefractiveScattering Medium // Radiophysics and Quantum Electronics.

2013. V.55.P.648653.20. Ilyushin Ya. A. Coherent backscattering enhancement in refracting media:diusion approximation. // J. Opt. Soc. Am. A. 2013. V.30. P.13051309.21. Îøëàêîâ Â. Ã., Èëþøèí ß. À., Öâûê Ð. Ø., Ñîëäàòîâ À. Í. Ïðèíöèïûïîñòðîåíèÿ ëàçåðíûõ ëó÷åâûõ èíñòðóìåíòàëüíûõ ñèñòåì îðèåíòèðîâàíèÿ. ×.1. // Èçâ. Âóçîâ.

Ôèçèêà. 2013. Ò56. Ñ.6070.22. Ilyushin Ya. A. Subsurface radar location of the putative ocean on Ganymede:Numerical simulation of the surface terrain impact. // Planetary and SpaceScience 2014. V.92. P.121126.3623. Ilyushin Ya. A. Weak Localization in Media with Refractive-Index Gradient:the Diusion Approximation. // Radiophysics and Quantum Electronics.2015. V.57.

P.730-736.24. Èëþøèí ß. À., Êóòóçà Á. Ã. Âëèÿíèå ïðîñòðàíñòâåííîé ñòðóêòóðû îñàäêîâ íà ïîëÿðèçàöèîííûå õàðàêòåðèñòèêè óõîäÿùåãî ìèêðîâîëíîâîãî èçëó÷åíèÿ àòìîñôåðû. // Èçâåñòèÿ ÐÀÍ. Ôèçèêà àòìîñôåðû è îêåàíà.2016. T.52. C.8391.25. Hartogh P., Ilyushin Ya. A. A passive low frequency instrument for radiowave sounding the subsurface oceans of the Jovian icy moons: An instrumentconcept. // Planetary and Space Science. 2016. V.130. P.30-39.37.

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