2008
DOI: 10.1103/physrevb.77.165206
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Intrinsic point defects in aluminum antimonide

Abstract: Calculations within density functional theory on the basis of the local density approximation are carried out to study the properties of intrinsic point defects in aluminum antimonide. Special care is taken to address finite-size effects, band gap error, and symmetry reduction in the defect structures. The correction of the band gap is based on a set of GW calculations. The most important defects are identified to be the aluminum interstitial Al 1+ i,Al , the antimony antisites Sb 0 Al and Sb 1+ Al , and the a… Show more

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Cited by 42 publications
(52 citation statements)
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“…1͑a͔͒ have very low concentrations, whereas all other defects considered in Table I have practically negligible concentrations. Overall these results are also in agreement with the recent DFT study of Åberg et al 33 that predicted equivalent defects to be dominant under aluminum-rich conditions in aluminum antimonide ͑AlSb͒.…”
Section: A Formation and Concentration Of Defectssupporting
confidence: 82%
“…1͑a͔͒ have very low concentrations, whereas all other defects considered in Table I have practically negligible concentrations. Overall these results are also in agreement with the recent DFT study of Åberg et al 33 that predicted equivalent defects to be dominant under aluminum-rich conditions in aluminum antimonide ͑AlSb͒.…”
Section: A Formation and Concentration Of Defectssupporting
confidence: 82%
“…One disadvantage of these types of DFT calculation is the spurious defect-defect interactions that occur between periodic images, with the magnitude being very much dependent on the charge of the defect and the size and shape of the supercell 31,32 . Elastic interactions are the main source of error for neutral defects.…”
Section: Finite-size Correctionsmentioning
confidence: 99%
“…For example for diamond and zincblende structures supercells based on simple cubic, body-centered cubic, and face-centered cubic unit cells are often used. 25,39,42 Since each of these cells is associated with a different Madelung constant the size dependence of for example the monopole-monopole correction, which is the leading electrostatic interaction term, 43 will differ between these cells. It is therefore advantageous to consider scaling among a set of self-similar cells.…”
mentioning
confidence: 99%
“…The formation free energy ∆G f is usually approximated by the formation energy ∆E f , which is legitimate if the vibrational entropy and the pressure-volume term are small. 39 The formation energy ∆E f of a defect in charge state q is given by 24,28,40 …”
mentioning
confidence: 99%