Enhanced numerical design of two-barrier infrared detectors with III–V compounds heterostructures considering the influence of lattice strain and misfit dislocations on the band gap

Jóźwikowska, A.; Suligowski, M.; Jóźwikowski, K.

doi:10.1007/s11082-019-1960-3

Cited by 4 publications

(1 citation statement)

References 23 publications

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“…InAs/GaSb SLs are more explored than InAs/InAsSb in terms of their physical properties, but it has been reported that introducing gallium atoms to the structure lowers the structural quality of the material through native point defects and has a negative impact on working parameters of the device 25 . To balance the gallium-induced defects it is crucial to maintain a balanced strain throughout the whole growth process to avoid "relieving" the strain by the SL through formation of the defects 26 .…”

Section: Introductionmentioning

confidence: 99%

Ultrafast infrared spectroscopy of InAs/GaSb and InAs/InAsSb type-II superlattices

Rygala,

Bader,

Smolka

et al. 2024

Quantum Sensing and Nano Electronics and Photonics XX

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Modern optical gas detection systems utilize the technique of tunable laser absorption spectroscopy for different applications in science, manufacture, or medicine. Superlattice structures composed of semiconductors from the 6.1 Å family enable type-II band alignments and have the potential to exceed state of the art figure of merits of widely used infrared detectors. In this study, InAs/GaSb and InAs/InAsSb type-II superlattices were grown using molecular beam epitaxy and characterized using Fourier-transform infrared spectroscopy and pump-probe transient absorption technique. Photoluminescence spectra were obtained for all samples in 10 to 300K temperature range and then complemented with photoreflectance measurements for characteristic temperatures to increase the sensitivity of the measurement for less optically active transitions. In addition, pump-probe measurements were performed to investigate the dynamics of carrier relaxation and recombination processes in proximity of transition energies observed in previous experiments.

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Section: Introductionmentioning

confidence: 99%

Ultrafast infrared spectroscopy of InAs/GaSb and InAs/InAsSb type-II superlattices

Rygala,

Bader,

Smolka

et al. 2024

Quantum Sensing and Nano Electronics and Photonics XX

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Numerical estimation of lattice strain, bending and generation of misfit dislocations in CdHgTe heterostructures grown on GaAs substrate

2020

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Using our own computer program, we determined the spatial distribution of lattice strains in the HgCdTe heterostructure grown on a GaAs substrate. Lattice stress resulting from lattice mismatch between the substrate and the epitaxial layer and bending of the heterostructure is almost completely relaxed by misfit dislocations forming matrixes in the interfaces’ areas. The average distances between dislocation lines in individual interfaces were calculated based on the minimum energy, i.e. elastic energy condition resulting from the interaction of stress fields and deformations caused by lattice misfit, bending and the presence of dislocation plus electrical energy of dislocations.

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Optimization by simulation for photovoltaic applications of the quaternary semiconductor InGaAsP epitaxed on InP substrate

Tarbi¹,

Chtouki

Benahmed

et al. 2021

Opt Quant Electron

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Enhanced numerical design of two-barrier infrared detectors with III–V compounds heterostructures considering the influence of lattice strain and misfit dislocations on the band gap

Cited by 4 publications

References 23 publications

Ultrafast infrared spectroscopy of InAs/GaSb and InAs/InAsSb type-II superlattices

Ultrafast infrared spectroscopy of InAs/GaSb and InAs/InAsSb type-II superlattices

Numerical estimation of lattice strain, bending and generation of misfit dislocations in CdHgTe heterostructures grown on GaAs substrate

Optimization by simulation for photovoltaic applications of the quaternary semiconductor InGaAsP epitaxed on InP substrate

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