A new description of ultra-fast femtosecond quantum processes with energy, entropy and information exchange in open substantial nanostructurcs is considered. The ultimate aim of the approach is to obtain the new nanotcchnologics based on the properties of eleetron-lield mullislable transformers (MT) which are the peculiar nanolevel objects. These nanoparticles have an ability of discrete exchange energy, entropy and information in time intervals of the range of 0.001 ÷10 fs, which are very small in comparison with atoms' vibration period in substance. The results of the research of MTs' features causing unusual nanosystcms' traits and their adaptive and cybernetic behavior properties are reported. MT systems give limitless resource for devices created within the same nanolevel to make measurements in femtosecond scale and to manipulate with substantial nanosystems. Computer experiments to research of femtosecond multikinetic processes with graphene and magnetic nickel clusters as the perspective new-generation nanodevices materials are carried out.
CITATION STYLE
Beznosyuk, S. A., Vazhenin, S. V., Maslova, O. A., Ziiukovsky, M. S., & Ziiukovsky, T. M. (2008). Transformation evolution of graphene and nickel nanoparticles. In NATO Science for Peace and Security Series C: Environmental Security (Vol. PartF2, pp. 215–224). Springer Verlag. https://doi.org/10.1007/978-1-4020-8898-8_21
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