J. E. Bernard scite author profile

Structural models used in calculations of properties of substitutionally random A l -"B,alloys are usually constructed by randomly occupying each of the N sites of a periodic cell by 2 or B. We show that it is possible to design "special quasirandom structures' (SQS's) that mimic for small N (even N 8) the first few, physically most relevant radial correlation functions of a perfectly random structure far better than the standard technique does. We demonstrate the usefulness of these SQS's by calculating optical and thermodynamic properties of a number of semiconductor alloys in the local-density formalism.PACS numbers: 61.55. Hg, 71.10.+x, 71.25.Tn One of the significant realizations to emerge from recent electronic structure calculations of crystals, impurities, and surfaces is that electronic properties sensitively reflect the details of the microscopic atomic arrangements, including small changes in atomic positions ("relaxation" ). Yet

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Electronic properties of random alloys: Special quasirandom structures

Wei

et al. 1990

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Structural models needed in calculations of properties of substitutionally random A ] B alloys are usually constructed by randomly occupying each of the X sites of a periodic cell by 3 or B. We show that it is possible to design "special quasirandom structures" (SQS's) that mimic for small N (even %= 8) the first few, physically most relevant radial correlation functions of an infinite, perfectly random structure far better than the standard technique does. These SQS's are shown to be short-period superlattices of 4-16 atoms/ce11 whose layers are stacked in rather nonstandard orientations (e.g. , [113], [331],and [115]). Since these SQS's mimic well the local atomic structure of the random alloy, their electronic properties, calculable via first-principles techniques, provide a representation of the electronic structure of the alloy. We demonstrate the usefulness of these SQS's by applying them to semiconductor alloys. We calculate their electronic structure, total energy, and equilibrium geometry, and compare the results to experimental data.

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Electronic structure of ZnS, ZnSe, ZnTe, and their pseudobinary alloys

1987

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Evaluation of systematic shifts of the88Sr+single-ion optical frequency standard at the10−17
Dubé
¹
,
Madej
²
,
Zhou
³

et al. 2013
Phys. Rev. A
129
4
147
0
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Sr+88445-THz Single-Ion Reference at the10−17Level via Control and Cancellation of Systematic Uncertainties and Its

et al. 2012

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J. E. Bernard

Special quasirandom structures

Electronic properties of random alloys: Special quasirandom structures

Electronic structure of ZnS, ZnSe, ZnTe, and their pseudobinary alloys

Evaluation of systematic shifts of the88Sr+single-ion optical frequency standard at the10−17
Dubé
¹
,
Madej
²
,
Zhou
³

et al. 2013
Phys. Rev. A
129
4
147
0
View full text Add to dashboard Cite

Sr+88445-THz Single-Ion Reference at the10−17Level via Control and Cancellation of Systematic Uncertainties and Its

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J. E. Bernard

Special quasirandom structures

Electronic properties of random alloys: Special quasirandom structures

Electronic structure of ZnS, ZnSe, ZnTe, and their pseudobinary alloys

Evaluation of systematic shifts of the88Sr+single-ion optical frequency standard at the10−17Dubé1, Madej2, Zhou3 et al. 2013Phys. Rev. A12941470View full textAdd to dashboardCite

Sr+88445-THz Single-Ion Reference at the10−17Level via Control and Cancellation of Systematic Uncertainties and Its

Contact Info

Product

Resources

About

Evaluation of systematic shifts of the88Sr+single-ion optical frequency standard at the10−17
Dubé
¹
,
Madej
²
,
Zhou
³

et al. 2013
Phys. Rev. A
129
4
147
0
View full text Add to dashboard Cite