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Hydrogen and muonium in diamond: A path-integral molecular dynamics simulation | Carlos P. Herrero
; Rafael Ramirez
; Eduardo R. Hernandez
; | Date: |
2 Jun 2006 | Subject: | Materials Science | Abstract: | Isolated hydrogen, deuterium, and muonium in diamond have been studied by path-integral molecular dynamics simulations in the canonical ensemble. Finite-temperature properties of these point defects were analyzed in the range from 100 to 800 K. Interatomic interactions were modeled by a tight-binding potential fitted to density-functional calculations. The most stable position for these hydrogenic impurities is found at the C-C bond center. Vibrational frequencies have been obtained from a linear-response approach, based on correlations of atom displacements at finite temperatures. The results show a large anharmonic effect in impurity vibrations at the bond center site, which hardens the vibrational modes with respect to a harmonic approximation. Zero-point motion causes an appreciable shift of the defect level in the electronic gap, as a consequence of electron-phonon interaction. This defect level goes down by 70 meV when replacing hydrogen by muonium. | Source: | arXiv, cond-mat/0606062 | Services: | Forum | Review | PDF | Favorites |
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