Large and composition-dependent band gap bowing in InxGa1−xN alloys
نویسنده
چکیده
We present theoretical and experimental results for the band gap of InxGa1−xN alloys, showing significantly larger bowing than has been commonly assumed. We highlight the importance of properly including strain in the experimental analysis. Using X-ray diffraction (XRD) and Rutherford backscattering spectrometry the layers in our study were determined to be pseudomorphically strained. The In content determined by XRD depends strongly on the assumptions made about the strain in the InGaN layers. Strain also affects the band structure and hence the transition energies measured by optical-transmission spectroscopy. An analysis of the experimental results produces a bowing parameter b:3.8 eV at x=0.1. First-principles calculations, based on pseudopotential–density–functional theory, produce values of the bowing parameter in agreement with the experimental determination, and also indicate a strong dependence of the bowing parameter on composition. © 1999 Elsevier Science S.A. All rights reserved.
منابع مشابه
Stokes Shift and Band Gap Bowing in In x Ga 1 − x N ( 0 . 060 ≤ x ≤ 0 . 105 ) Grown by Metalorganic Vapour Phase Epitaxy
We presented the results of electrical and optical studies of the properties of InxGa1−xN epitaxial layers (0.060 ≤ x ≤ 0.105) grown by metalorganic vapour phase epitaxy. Resistivity and Hall effect measurements of the samples were carried out at room temperature. Optical properties of the samples were characterized by photoluminescence and optical absorption spectroscopy. The comparison betwee...
متن کاملBand Gap of Hexagonal InN and InGaN Alloys
A survey of most recent studies of optical absorption, photoluminescence, photoluminescence excitation, and photomodulated reflectance spectra of single-crystalline hexagonal InN layers is presented. The samples studied were undoped n-type InN with electron concentrations between 6 1018 and 4 1019 cm– 3. It has been found that hexagonal InN is a narrow-gap semiconductor with a band gap of about...
متن کاملFirst-Principles Investigation of Density of States and Electron Density in Wurtzite In0.5Ga0.5 N Alloys with GGA-PBEsol Method
In present work, we have calculated the electronic properties including density of states and electron density for GaN, InN and InxGa1-xN in wurtzite phase for x=0.5. The study is based on density functional theory with full potential linearized augmented plane wave method by generalized gradient approximation for calculating electronic properties. In this report we concluded that InxGa1-xN ba...
متن کاملو چاه کوانتومی چندتائی InxGa1-xN بررسی مدهای اپتیکی آلیاژ در ناحیه فروسرخ دور In0.5Ga0.5N/GaN
Optical properties of InxGa1-xN alloy and In0.5Ga0.5N/GaN multi quantum wells have been investigated in the region of far infrared. Far-IR reflectivity spectra of In0.5Ga0.5N/GaN multi quantum wells on GaAs substrate have been obtained by oblique incidence p- and s-polarization light using effective medium approximation. The spectra and the dielectric functions response give a good informa...
متن کاملMicrostructural Characterization of High Indium-Composition InXGa1−XN Epilayers Grown on c-Plane Sapphire Substrates
The growth of high-quality indium ~In!-rich InXGa1 XN alloys is technologically important for applications to attain highly efficient green light-emitting diodes and solar cells. However, phase separation and composition modulation in In-rich InXGa1 XN alloys are inevitable phenomena that degrade the crystal quality of In-rich InXGa1 XN layers. Composition modulations were observed in the In-ri...
متن کامل