STRUCTURALLY COMPLEX BOUNDARY WITH SPECULAR­DIFFUSE REFLECTION INDICATRIX

Cite this article as:

Naplekov D. М., Tur А. V., Yanovsky V. V. STRUCTURALLY COMPLEX BOUNDARY WITH SPECULAR­DIFFUSE REFLECTION INDICATRIX. Izvestiya VUZ. Applied Nonlinear Dynamics, 2014, vol. 22, iss. 4, pp. 55-65. DOI: https://doi.org/10.18500/0869-6632-2014-22-4-55-65​

The way of modeling of specular­diffuse character of light reflection from real surfaces is proposed in the paper. Model of structurally complex reflecting boundary baseson the open billiards. Indicatrix of reflection from this surface for all angles of incidence consists only of specular pike and diffuse component. Dependence of the share of specular component on an angle of incidence may be any predefined function, its choice also defines the shape of diffuse component. It is shown, that generated by the surface indicatrix differs from the Lambert one and well coincides with experimentally observed indicatrixe of real surfaces.

Authors: 
Naplekov D. М., Институт монокристаллов НАН Украины, Украина, 61001 Харьков, пр.Ленина, 60 Телефон: 38(057) 341-01-6 , nmi@datasvit.net
Tur А. V. , Institut de Recherche en Astrophysique et Planetologie, 9, avenue du Colonel Roche BP 44346 - 31028 Toulouse Cedex 4 Tel : 05 61 55 66 66 Fax : 05 61 55 86 92 , Anatoly.Tour@irap.omp.eu
Yanovsky V. V., Институт монокристаллов НАН Украины, Украина, 61001 Харьков, пр.Ленина, 60 Телефон: 38(057) 341-01-6 , yanovsky@isc.kharkov.ua
Key words: 
Diffuse light reflection, open billiard.
DOI: 
10.18500/0869-6632-2014-22-4-55-65​
Literature

1. Lambert J.H. Photometria sive de mensura et gradibus luminus, colorum et umbrae. Augsburg: Eberhard Klett, 1760.

2. Beckmann P., Spizzichino A. The Scattering of Electromagnetic Waves from Rough Surfaces. NY:Pergamon, 1963.

3. Torrance K., Sparrow E. Theory for off-specular reflection from roughened surfaces // J. Opt. Soc. Am. 1967. Vol. 57, No 9. P. 1105.

4. Oren M., Nayar S.K. Generalization of the Lambertian model and implications for machine vision // Int. J. Comput. Vision. 1995. Vol. 14. P. 227.

5. Ginneken B., Stavridi M., Koenderink J.J. Diffuse and specular reflectance from rough surfaces // Applied Optics. 1998. Vol. 37. P. 130.

6. Wolff L.B. Diffuse-reflectance model for smooth dielectric surfaces // J. Opt. Soc. Am. A. 1994. Vol. 11, No 11. P. 2956.

7. Оптическая биомедицинская диагностика: T. 1, 2 / Пер. с англ. Под ред. В.В. Тучина. М.: Физматлит, 2007.

8. Oliveira L., Carvalho M.I., Nogueira E., and Tuchin V.V. The characteristic time of glucose diffusion measured for muscle tissue at optical clearing // Laser Phys. 2013. Vol. 23. P. 075606-1-7.

9. Глобус М.Е., Гринёв Б.В. Неорганические сцинтилляторы. Харьков: Акта, 2000.

10. Гринев Б.В., Найденов С.В., Яновский В.В. О спектрометрических закономерностях светособирания в сцинтиляционных детекторах // ДАН Украины. 2003. No 4. C. 88.

11. Altmann E.G., Portela J.S.E., Tel T. Leaking chaotic systems // Rev. Mod. Phys. 2013. Vol. 85. P. 869.

12. Nagler J., Krieger M., Linke M., Schonke J., Wiersig J. Leaking billiards // Phys. Rev. E. 2007. Vol. 75. P. 046204.

13. Bauerand W., Bertsch G.F. Decay of ordered and chaotic systems // Phys. Rev. Lett. 1990. Vol. 65, No 18. P. 2213.

14. Naplekov D.M., Tur A.V., Yanovsky V.V. Scattering by a boundary with complex structure // Phys. Rev. E. 2013. Vol. 87. P. 042901.

15. Hope A., Hauer K.-O. Three-dimensional appearance characterization of diffuse standard reflection materials // Metrologia. 2010. Vol. 47. P. 295.

16. Micolich A.P., See A.M., Scannell B.C., Marlow C.A., Martin T.P., Pilgrim I., Hamilton A.R., Linke H., Taylor R.P. Is it the boundaries or disorder that dominates electron transport in semiconductor «billiards»? // Fortschr. Phys. 2013. Vol. 61, No 2–3. P. 332.

17. Brunner R., Meisels R., Kuchar F., Akis R., Ferry D.K., Bird J.P. Classical and quantum dynamics in an array of electron billiards // Physica E. 2008. Vol. 40. P. 1315.

18. Naidenov S.V., Yanovsky V.V. Geometric-dynamic approach to billiard systems: I. Projective involution of a billiard, direct and inverse problems // Theor. Math. Physics. 2001. Vol. 127, No 1. P. 500.

19. Naidenov S.V., Yanovsky V.V. Geometric-dynamic approach to billiard systems: II. Geometric features of involutions // Theor. Math. Physics. 2001. Vol. 129, No 1. P. 1408.

20. Toporets A.S., Mazurenko M.M. Diffusion reflection by a rough surface // Zh. Prikl. Spektr. 1969. Vol. 10, No 3. P. 486.

 

Heading: 
Applied Problems of Nonlinear Oscillation and Wave Theory
Status: 
одобрено к публикации
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BibTeX

@article{Наплеков -IzvVUZ_AND-22-4-55,
author = {D. М. Naplekov and А. V. Tur and V. V. Yanovsky},
title = {STRUCTURALLY COMPLEX BOUNDARY WITH SPECULAR­DIFFUSE REFLECTION INDICATRIX},
year = {2014},
journal = {Izvestiya VUZ. Applied Nonlinear Dynamics},
volume = {22},number = {4},
url = {https://old-andjournal.sgu.ru/en/articles/structurally-complex-boundary-with-speculardiffuse-reflection-indicatrix},
address = {Саратов},
language = {russian},
doi = {10.18500/0869-6632-2014-22-4-55-65​},pages = {55--65},issn = {0869-6632},
keywords = {Diffuse light reflection,open billiard.},
abstract = {The way of modeling of specular­diffuse character of light reflection from real surfaces is proposed in the paper. Model of structurally complex reflecting boundary baseson the open billiards. Indicatrix of reflection from this surface for all angles of incidence consists only of specular pike and diffuse component. Dependence of the share of specular component on an angle of incidence may be any predefined function, its choice also defines the shape of diffuse component. It is shown, that generated by the surface indicatrix differs from the Lambert one and well coincides with experimentally observed indicatrixe of real surfaces. }}