Title :
Role of interdependence dissipative and conservative self-organization in obtaining low-dimensional 3D-systems
Author :
Perekrestov, V.I. ; Davydenko, T.O.
Author_Institution :
Sumy State Univ., Sumy, Ukraine
Abstract :
The physical basics and construction of the accumulative plasma-condensate systems (APCS), in which there is a dissipative self-organization of critically low steady-state supersaturation, have been set out. On the example of Ti, Al, Cr, Cu, and C quasi-equilibrium condensation we determined formation mechanisms of low-dimensional 3D-systems. The interdependence of conservative and dissipative self-organizations, as a basis for fabrication of condensates with different architectures, is revealed.
Keywords :
aluminium; carbon; chromium; condensation; copper; plasma materials processing; self-assembly; titanium; Al; C; Cr; Cu; Ti; accumulative plasma-condensate systems; condensates fabrication; conservative self-organization; critically low steady-state supersaturation; dissipative self-organization; formation mechanisms; low-dimensional 3D-systems; quasiequilibrium condensation; Assembly; Electronic mail; Minimization; Self-assembly; Shape; Steady-state; Titanium;
Conference_Titel :
Microwave and Telecommunication Technology (CriMiCo), 2012 22nd International Crimean Conference
Conference_Location :
Sevastopol, Crimea
Print_ISBN :
978-1-4673-1199-1
