Oxygen '96

Early Stages of Oxygen Precipitation in Silicon

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CORE STRUCTURE OF THERMAL DONORS IN SILICON

J. Chadi

NEC Research Institute, 4 Independence Way, Princeton, New Jersey 08540-6634

Aggregation of oxygen impurities in Si as a result of thermal annealing gives rise to "thermal" double donor defects. The principal theoretical challenge in the determination of the structure of thermal donors is to come up with a structure that has a lower energy than that of the simple interstitial configuration for oxygen while being consistent with extensive experimental data. Interstitial oxygen in Si has a large binding energy of 4.6 eV in a twofold coordinated interstitial state and is electrically inactive. The thermal donor must have a structure which gives at least as large a binding energy as this while being able to put two electrons in a non-bonding state at a relatively high energy, i.e., at the conduction-band-minimum. In this talk I will report on the results of extensive first-principles calculations on many different models consisting of between 1-5 oxygen atoms, with or without Si defects such as interstitials or vacancies. Over 25 different structures were examined. The results of the calculations leave little doubt that if the average binding energy of oxygen atoms in a thermal donor is to be larger than for interstitial oxygen then Si vacancies or interstitials cannot be involved in the structure. The most stable structures identified, their stability, symmetry, electronic properties, and their computability with experimental data will be discussed.

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Last modified: Mon Feb 19 12:11:17 GMT 1996 JG