低功率密度激光合成金刚石的相变机理

In order to prolong the effective actuation duration and improve the transformation ratio of nanodiamonds synthesized by laser irradiation, we proposed the process that the graphite particles suspended in water was irradiated by laser beam with lower power density for the first time. The high resolution transmission electron microscopy(HRTEM) and X-ray diffract meter (XRD) results suggest that diamond particles with monocrystal structure or multiple twins’ structure be synthesized and the particles size be about 5 nm in the samples. According to the microstructure of nanodiamonds and the theoretical calculation result that the temperature on the surface of the graphite powders was about 5300K, the mechanism of the phase transformation in the process was that the raw graphite was molten when it was irradiated by the laser beam with lower power density(106W•cm-2) which can not generate plasma, and then nanodiamond nucleated and grew up from liquid carbon cooled quickly after the laser pulse.