Self-Organization in Collective Behaviour of Active Nanoparticles

Authors O.V. Yushchenko , A.Sh. Baranova
Affiliations Sumy State University, 2, R. Korsakov Str., 40007, Sumy, Ukraine
Е-mail [email protected], [email protected]
Issue Volume 2, Year 2010, Number 1
Dates Received 05.03.2010, in final form - 26.04.2010
Citation English version is unavailable
PACS Number(s) 05.40. – a, 64.70. – p
Keywords Average velosity, Long-range forse, State parameter (2) , Phase portrait, Distribution function.

The self-organization of the set of active nanoparticles was self-consistently described on the basis of Lorentz's three-parametrical system in frameworks of the phenomenological scheme. The continuous and discontinuous types of transition from a rotary movement mode to the forward were considered. The fluctuation’s influence on transition is investigated and diagrammed of possible modes of active nanoparticles group behavior are constructed. The kinetics of transition between rotary and forward movement types for different correlations between characteristic times of system’s key parameters was analyzed on the basis of phase portraits.

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