NOVEL FORMATION AND DECAY MECHANISMS OF NANOSTRUCTURES ON THE SURFACE |
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| Authors: | Wand En-ge Liu Bang-gui Wu Jing Li Mao-zhi Yao Yu-gui Zhu Wen-guang Zhong Jian-xin John Wendelken Niu Qian Zhang Zhen-yu |
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| Affiliation: | Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100080, China; International Center for Quantum Structures, Chinese Academy of Sciences, Beijing China; Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA; Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA |
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| Abstract: | For decades the research on thin-film growth has attracted considerable attention as these kinds of materials have the potential for a new generation of device application. It is known that the nuclei at the initial stage of the islands are more stable than others and certain atoms are inert while others are active. In this paper, by using kinetic Monte Carlo simulations, we will show that, when a surfactant layer is used to mediate the growth, a counter-intuitive fractal-to-compact island shape transition can be induced by increasing deposition flux or decreasing growth temperature. Specifically, we introduce a reaction-limited aggregation (RLA) theory, where the physical process controlling the island shape transition is the shielding effect of adatoms stuck to the stable islands on the incoming adatoms. Moreover, the origin of a transition from triangular to hexagonal and then to inverted triangular as well as the decay characteristics of three-dimensional islands on the surface and relations of our unique predictions with recent experiments will be discussed. Furthermore, we will present a novel idea to make use of the condensation energy of adatoms to control the island evolution along a special direction. |
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| Keywords: | nanostructures on the surface formation and decay kinetic monte carlo simulation rate equation analysis |
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