2018
DOI: 10.1103/physrevapplied.10.044024
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Impact of Disorder on the Optoelectronic Properties of GaNyAs1xyBix Al

Abstract: We perform a systematic theoretical analysis of the nature and importance of alloy disorder effects on the electronic and optical properties of GaNyAs1−x−yBix alloys and quantum wells (QWs), using large-scale atomistic supercell electronic structure calculations based on the tight-binding method. Using ordered alloy supercell calculations we also derive and parametrise an extended basis 14-band k·p Hamiltonian for GaNyAs1−x−yBix. Comparison of the results of these models highlights the role played by short-ran… Show more

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Cited by 21 publications
(20 citation statements)
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References 93 publications
(266 reference statements)
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“…The small or zero thickness of the GaAs shell for ρ D ≥ 0.8 results in a weak quantum confinement effect along the growth direction, and therefore the spatial distributions of the electron wave functions become more localised in the in-plane directions.The spatial distribution of the hole wave functions is quite different from the electron wave functions and is governed by three effects: quantum confinement, biaxial strain and alloy disorder. As shown in the previous studies for the GaBi x As 1−x /GaAs quantum wells [32,44,51], the impact of the alloy disorder is dominant on the hole wave function confinements which is also evident in our study of nanowires. Overall, we conclude that the strong alloy disorder impact dominates the effects of the quantum confinement and strain, and leads to highly confined hole wave functions as shown in Figure 3.…”
supporting
confidence: 84%
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“…The small or zero thickness of the GaAs shell for ρ D ≥ 0.8 results in a weak quantum confinement effect along the growth direction, and therefore the spatial distributions of the electron wave functions become more localised in the in-plane directions.The spatial distribution of the hole wave functions is quite different from the electron wave functions and is governed by three effects: quantum confinement, biaxial strain and alloy disorder. As shown in the previous studies for the GaBi x As 1−x /GaAs quantum wells [32,44,51], the impact of the alloy disorder is dominant on the hole wave function confinements which is also evident in our study of nanowires. Overall, we conclude that the strong alloy disorder impact dominates the effects of the quantum confinement and strain, and leads to highly confined hole wave functions as shown in Figure 3.…”
supporting
confidence: 84%
“…We note that this work is focused on the GaBi x As 1−x material, however other bismide materials such as GaP 1−x Bi x , In x Ga 1−x Bi y As 1−y , and GaBi x N y As 1−x−y have also exhibited similar promising band structure properties based on the published bulk and quantum well studies [23,32,61,63,64].…”
Section: Resultsmentioning
confidence: 99%
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“…This approach, which is similar to the computation of the spectral function at a single k-point employed in popular zone unfolding schemes, enables the evolution of both the energy and character of the alloy band edge states to be identified and tracked (see, e.g., Ref. 77).…”
Section: B Strained Special Quasi-random Supercellsmentioning
confidence: 99%