Energy Gaps, Optical Transitions, and Exciton Properties of ZnSe at High Pressures
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Published:2024-02-01
Issue:2
Volume:13
Page:024001
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ISSN:2162-8769
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Container-title:ECS Journal of Solid State Science and Technology
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language:
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Short-container-title:ECS J. Solid State Sci. Technol.
Author:
Drissi Nidhal,
Gassoumi Abdelaziz,
Bouarissa NadirORCID
Abstract
Lattice parameters, band-gap energies, optical transitions and exciton properties of ZnSe at high-pressures up to 100 kbar have been studied using a pseudo-potential method. Results are generally in good agreement with experiment at zero pressure. Adachi’s expression formula for exciton binding energy and Bohr radius are adjusted giving a significant accordance with experiments. A very good accord is acquired between our obtained consequences concerning the refractive index and the high-frequency dielectric constant when using Hervé and Vandamme model. Upon compression up to 100 kbar, ZnSe remains a direct (Γ-Γ) semiconductor. The lattice parameter decreases from 5.6692 to 4.9075 Å, whereas the valence band width increases from 11.47 to 15.35 eV. A monotonic behavior has been found for all parameters of interest under hydrostatic pressure.
Funder
Deanship of Scientific Research, King Khalid University
Publisher
The Electrochemical Society
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