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Evolution of the band gap and the dominant radiative recombination center versus the composition for ZnSe1−<i>x</i>Te<i>x</i> alloys grown by molecular beam epitaxy
69
Citations
10
References
1991
Year
Optical MaterialsEngineeringOptoelectronic DevicesBand GapSemiconductor NanostructuresSemiconductorsIi-vi SemiconductorQuantum MaterialsMolecular Beam EpitaxyEpitaxial GrowthCompound SemiconductorMaterials SciencePhotoluminescenceCrystalline DefectsPhysicsOptoelectronic PropertiesOptoelectronic MaterialsZnse1−xtex AlloysApplied PhysicsCondensed Matter PhysicsOptoelectronics
We report a systematic study of the optoelectronic properties of ZnSe1−xTex alloys grown by molecular beam epitaxy over the entire range of compositions. The band-gap energy as a function of the composition presents a minimum at x≂0.65. The main luminescence emission observed at 5 K becomes narrower and closer to the band-gap energy as we increase the Te content. The linewidth and the difference between the emission peak and band-gap energy decrease significantly with increasing x and present a break in the slope at x≂0.65.
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