Experimental deduction of In/Si(1 1 1) 2D phase diagram and ab initio DFT modeling of 2√3 phase |
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Authors: | K Jithesh UV Waghmare |
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Institution: | a Jawaharlal Nehru Center for Advanced Scientific Research, Jakkur, Bangalore 560064, India b Surface Physics and Nanostructures Group, National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India |
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Abstract: | We have carried out adsorption and residual thermal desorption experiments of Indium on Si (1 1 1) 7 × 7 reconstructed surface, in the submonolayer regime, in Ultra High Vacuum (UHV) using in situ probes such as Auger Electron Spectroscopy (AES) and Low Energy Electron Diffraction (LEED). The coverage information from AES and the surface symmetry from LEED is used to draw a 2D phase diagram which characterizes each observed superstructural phases. The different superstructural phases observed are Si(1 1 1)7 × 7-In, Si(1 1 1)√3 × √3R30°-In, Si(1 1 1)4 × 1-In, Si(1 1 1)2√3 × 2√3R30°-In and Si(1 1 1)√7 × √3-In in characteristic temperature and coverage regime. In addition to the 1/3 ML, √3 × √3-In phase, we observe two additional √3 × √3-In phases at around 0.6 and 1 ML. Our careful residual thermal desorption studies yields the Si(1 1 1)2√3 × 2√3R30°-In phase which has infrequently appeared in the literature. We probe theoretically the structure of this phase according to the LEED structure and coverage measured by AES, assuming that the model for Si(1 1 1)2√3 × 2√3R30°-In is very proximal to the well established Si(1 1 1)2√3 × 2√3R30°-Sn phase, using ab initio calculation based on pseudopotentials and Density Functional Theory (DFT) to simulate an STM image of the system. Calculations show the differences in the atomic position and charge distribution in the Si(1 1 1)2√3 × 2√3R30°-In case. |
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Keywords: | Superstructural phases Auger Electron Spectroscopy Low Energy Electron Diffraction Density Functional Theory |
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