2003
DOI: 10.1007/s00339-002-1944-0
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Extended defects in shallow implants

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Cited by 131 publications
(120 citation statements)
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“…The various predicted structures were found to be in excellent structural agreement with microscopy observations and electronic-structure calculations. [2][3][4][5][6][7] Overall, the three different potentials employed, namely, the environment-dependent interatomic potential ͑EDIP͒, 8 Tersoff, 9 and Stillinger-Weber ͑SW͒, 10 all predicted consistent overall trends, leading to a qualitatively coherent picture for some aspects of selfinterstitial clustering in silicon. In particular, it was found that cluster morphology is sensitively dependent on both the temperature and stress within the lattice.…”
Section: Introductionmentioning
confidence: 77%
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“…The various predicted structures were found to be in excellent structural agreement with microscopy observations and electronic-structure calculations. [2][3][4][5][6][7] Overall, the three different potentials employed, namely, the environment-dependent interatomic potential ͑EDIP͒, 8 Tersoff, 9 and Stillinger-Weber ͑SW͒, 10 all predicted consistent overall trends, leading to a qualitatively coherent picture for some aspects of selfinterstitial clustering in silicon. In particular, it was found that cluster morphology is sensitively dependent on both the temperature and stress within the lattice.…”
Section: Introductionmentioning
confidence: 77%
“…Both of these results are consistent with the experimental observation that self-interstitial clusters eventually tend to coarsen into FDLs and then PDLs under most anneal-ing conditions. 3,[24][25][26][27][28][29] On the other hand, the absence of ͕100͖ planar defects in silicon wafer annealing experiments cannot be explained on the basis of simple energetics as these are found to possess formation energies that are very similar to the various configurations of ͕113͖ defects. For example, Goss 5 employed DFT within the local density approximation to compute the formation energies of infinite ͕100͖ and ͕113͖ defects, and found that the ͕100͖ defect was in fact slightly favored over the ͕113͖.…”
Section: Formation Thermodynamics For Self-interstitial Clusters-prevmentioning
confidence: 99%
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“…By employing the transmission electron microscopy ͑TEM͒, the crystallographic structure of the defects, formed during the low temperature epitaxial regrowth, has been resolved and to date four types of extended defects in Si are known: small interstitial clusters ͑less than ten atoms, invisible by TEM͒, elongated or rodlike defects, called ͕113͖'s, and perfect and faulted dislocation loops ͑PDLs and FDLs, respectively͒. [1][2][3][4] It has been ascertained that, during annealing, all these defects evolve following an Ostwald ripening process and, eventually, they change their crystallographic structure, in order to minimize their formation energy. 4 During a moderate thermal annealing ͑600-800°C͒, ͕113͖'s are initially formed.…”
Section: Evidences Of An Intermediate Rodlike Defect During the Transmentioning
confidence: 99%
“…[1][2][3][4] It has been ascertained that, during annealing, all these defects evolve following an Ostwald ripening process and, eventually, they change their crystallographic structure, in order to minimize their formation energy. 4 During a moderate thermal annealing ͑600-800°C͒, ͕113͖'s are initially formed. However, if the total interstitial population is sufficiently high, additional thermal budgets allow the ͕113͖'s to transform into PDLs and FDLs, which, in turn, engage a competitive ripening mechanism among themselves, depending on the different experimental conditions.…”
Section: Evidences Of An Intermediate Rodlike Defect During the Transmentioning
confidence: 99%