Geodesic
Computer analysis of self-organization processes in solids
Matematičeskoe modelirovanie, Tome 18 (2006) no. 1, pp. 88-98.

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In the given work research of structures of spatial self-organization in the solids by irradiation by both ion fluxes and laser with the help of technique of fractal parameterization are considered. The set of fractal parameters is received. This set allowed to determine that character of behavior of this parameters depends of as parameters of external influence, as internal characteristics of the structure. Calculation of numerical parameters is carried out with the help of computer analysis. 
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N. V. Kulikova; V. S. Khmelevskaya; V. V. Bondarenko. Computer analysis of self-organization processes in solids. Matematičeskoe modelirovanie, Tome 18 (2006) no. 1, pp. 88-98. http://geodesic.mathdoc.fr/item/MM_2006_18_1_a8/

[1] V. S. Khmelevskaya, V. G. Malynkin, Materialovedenie, 1998, no. 2, 25–33

[2] V. S. Khmelevskaya, V. G. Malynkin, Phase Transitions, 60 (1997), 59–65 | DOI

[3] V. S. Khmelevskaya, V. G. Malynkin, E. V. Bazaleev, Pisma v ZhTF, 20:23 (1994), 21–25

[4] V. S. Khmelevskaya, V. G. Malynkin, M. Yu. Kanunnikov, Pisma v ZhTF, 24:23 (1998), 1–8

[5] G. Khaken, Sinergetika, Mir, M., 1980, 412 pp. | MR

[6] G. Nikolis, I. Prigozhin, Samoorganizatsiya v neravnovesnykh sistemakh, Mir, M., 1979, 512 pp.

[7] E. Feder, Fraktaly, Mir, M., 1991, 249 pp. | MR

[8] I. A. Popova, N. A. Savrasova, E. P. Domashevskaya, “Multifraktalnyi analiz struktury amorfnogo splava Re-Ta razlichnogo sostava”, Kondensirovannye sredy i mezhfazovye granitsy, 2:4 (2000) | MR | Zbl

[9] G. V. Vstovskii, A. G. Kolmakov, I. Zh. Bunin, Vvedenie v multifraktalnuyu parametrizatsiyu struktur materialov, Nauchno izdatelskii tsentr “Regulyarnaya i khaoticheskaya dinamika”, 2001, 115 pp.

[10] M. Laslo, Vychislitelnaya geometriya i kompyuternaya grafika, Binom, M., 1997, 301 pp.

[11] K. Lindi, Prakticheskaya obrabotka izobrazhenii na yazyke Si, Mir, M., 1996, 510 pp.

[12] V. Shamis, Borland C++ Builder 6 dlya professionalov, Izdatelskii dom “Piter”, 2003, 797 pp.