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Main Authors: Yavorskiy, D., Ivonyak, Y., But, D., Karpierz, K., Krajewska, A., Haras, M., Sai, P., Dub, M., Kazakov, A., Cywiński, G., Knap, W., Łusakowski, J.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.16122
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author Yavorskiy, D.
Ivonyak, Y.
But, D.
Karpierz, K.
Krajewska, A.
Haras, M.
Sai, P.
Dub, M.
Kazakov, A.
Cywiński, G.
Knap, W.
Łusakowski, J.
author_facet Yavorskiy, D.
Ivonyak, Y.
But, D.
Karpierz, K.
Krajewska, A.
Haras, M.
Sai, P.
Dub, M.
Kazakov, A.
Cywiński, G.
Knap, W.
Łusakowski, J.
contents HgCdTe alloys are unique because by increasing the Cd content x, one modifies the band structure from inverted to normal, which fundamentally modifies the dispersion of bulk and surface or edge (in the case of quantum wells) energy states. Using alloys with x close to the concentration x_c at which the band inversion transition is observed and with additional application of hydrostatic pressure (p), one creates a favorable playground for studying the evolution of Dirac matter and its topological properties. In this work, cryogenic magnetospectroscopy in quantizing magnetic fields (B) at the far-infrared is used to study inter-Landau-level transitions in high-quality HgCdTe MBE-grown epitaxial layers with x ~ x_c as a function of p up to 4.2 kbar. Special attention is paid to elucidate the role of the substrate and buffer layers, which usually modify the pressure coefficients of epitaxial layers. For this purpose, comparative measurements were carried out on as-grown epilayers with a GaAs substrate and on free-standing layers obtained by etching off the substrate. Spectra registered as a function of B (at given p) were analyzed with the help of the Kane model modified to include magnetic field. The pressure coefficient as well as the difference between conduction and valence band deformation potentials of the free-standing layer were determined at 2 K. Surprisingly, the deformation potentials and pressure coefficients of the epitaxial layer and those of the free-standing layer differed by no more than 10 % in the pressure range up to 4.2 kbar. This finding questions the common belief of a dominant influence of the substrate on the pressure coefficients of epitaxial layers...
format Preprint
id arxiv_https___arxiv_org_abs_2406_16122
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Pressure tuning of HgCdTe epitaxial layers -- the role of the highly disordered buffer layer
Yavorskiy, D.
Ivonyak, Y.
But, D.
Karpierz, K.
Krajewska, A.
Haras, M.
Sai, P.
Dub, M.
Kazakov, A.
Cywiński, G.
Knap, W.
Łusakowski, J.
Materials Science
HgCdTe alloys are unique because by increasing the Cd content x, one modifies the band structure from inverted to normal, which fundamentally modifies the dispersion of bulk and surface or edge (in the case of quantum wells) energy states. Using alloys with x close to the concentration x_c at which the band inversion transition is observed and with additional application of hydrostatic pressure (p), one creates a favorable playground for studying the evolution of Dirac matter and its topological properties. In this work, cryogenic magnetospectroscopy in quantizing magnetic fields (B) at the far-infrared is used to study inter-Landau-level transitions in high-quality HgCdTe MBE-grown epitaxial layers with x ~ x_c as a function of p up to 4.2 kbar. Special attention is paid to elucidate the role of the substrate and buffer layers, which usually modify the pressure coefficients of epitaxial layers. For this purpose, comparative measurements were carried out on as-grown epilayers with a GaAs substrate and on free-standing layers obtained by etching off the substrate. Spectra registered as a function of B (at given p) were analyzed with the help of the Kane model modified to include magnetic field. The pressure coefficient as well as the difference between conduction and valence band deformation potentials of the free-standing layer were determined at 2 K. Surprisingly, the deformation potentials and pressure coefficients of the epitaxial layer and those of the free-standing layer differed by no more than 10 % in the pressure range up to 4.2 kbar. This finding questions the common belief of a dominant influence of the substrate on the pressure coefficients of epitaxial layers...
title Pressure tuning of HgCdTe epitaxial layers -- the role of the highly disordered buffer layer
topic Materials Science
url https://arxiv.org/abs/2406.16122