G. E. Remnev, Yu. F. Ivanov, E. P. Naiden, M. S. Saltymakov, A. V. Stepanov, V. F. Shtan'ko, “Formation of silicon carbide and diamond nanoparticles in the surface layer of a silicon target during short-pulse carbon ion implantation”, Zhurnal Tekhnicheskoi Fiziki, 2009, Volume 79, Issue 4,Pages <nobr>156

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Formation of silicon carbide and diamond nanoparticles in the surface layer of a silicon target during short-pulse carbon ion implantation

G. E. Remnev^a, Yu. F. Ivanov^b, E. P. Naiden^c, M. S. Saltymakov^a, A. V. Stepanov^a, V. F. Shtan'ko^d

^a Research Institute of High-Voltage Equipment, Tomsk Polytechnical University, Tomsk, 634028, Russia
^b Institute of High Current Electronics, Siberian Branch of the Russian Academy of Sciences, Tomsk
^c Siberian Physical-Technical Institute of the Tomsk State University
^d Tomsk Polytechnic University

Abstract: Synthesis of silicon carbide and diamond nanoparticles is studied during short-pulse implantation of carbon ions and protons into a silicon target. The experiments are carried out using a TEMP source of pulsed powerful ion beams based on a magnetically insulated diode with radial magnetic field B r . The beam parameters are as follows: the ion energy is 300 keV, the pulse duration is 80 ns, the beam consists of carbon ions and protons, and the ion current density is 30 A/cm$^2$. Single-crystal silicon wafers serve as a target. SiC nanoparticles and nanodiamonds form in the surface layer of silicon subjected to more than 100 pulses. The average coherent domain sizes in the SiC particles and nanodiamonds are 12–16 and 8–9 nm, respectively.

Received: 05.08.2008