The solution of the study of self-assembly and self-organization of compact nanoparticles from the swarm of atomical nanoparticles by the example of Fe-Co is set out in the report. To perform the numerical experiment was used Monte Carlo method. The analysis of synthesis atomic clusters of magnetic nanoparticles of iron subgroup in quantum-entangled (η = 1) and quantum -nonentangled (η = 0) states is given. It is shown that the result nanosynthesis depends not only on the outside thermodynamic parameters, but also on the self-assembly and self-organization of nanosystem due to activation of the inner quantum electron degrees of freedom.

nanoparticles; iron group; nanocluster; self-assembly; Monte Carlo method

Zhukovsky MS, Beznosyuk SA, Potekaev AI, Starostenkov MD. Teoreticheskiye osnovy komp'yuternogo nanoinzhiniringa biomimeticheskikh nanosistem [Theoretical foundations of computer nanoengineering of biomimetic nanosystems]. Tomsk: NTL; 2011. 236 p. Russian.

Beznosyuk SA, Minaev BF, Dajanov RD, Muldachmetov ZM. Approximating quasi-particle density functional calculations of small active clusters: Strong electron correlation effects. Int J Quantum Chem. 1990;38:779-97. doi:10.1002/qua.560380603

Zhukovsky MS, Beznosyuk SA, Grishko MS. In: Proceedings of symposium I "Multifunctional advanced composite materials: manufacturing, structure, properties; 2009 Sep 14-18; Warsaw, Poland. p. 29.

Beznosyuk SA, Grishko MS. Perspektivnye materialy. 2009;7:44. Russian.

Beznosyuk SA, Zhukovskaya TM, Zhukovsky MS, Grishko MS. [Quantum dissipative structures biomimetic nanobots in otohime materials]. Fundamental'nye problemy sovremennogo materialovedeniya. 2012;9:252-6. Russian.