Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/3382
Title: Preparation and Optical Properties of Substrates with Surface Nanostructure
Other Titles: Отримання та оптичні властивості підкладинок з поверхневою наноструктурою
Authors: Makhnuy, V.
Bodyl, G.
Pavlyuk, M.
Slyotov, O.
Keywords: Cd1-xMnxTe solid solutions, annealing, АFM-topograms, Surface nanostructure, Nanopyramids, Luminescence, Differential optical transmission spectra
Issue Date: 2017
Citation: V.P. Makhniy, G.I. Bodyl, M.F. Pavlyuk, O.М. Slyotov. Preparation and Optical Properties of Substrates with Surface Nanostructure // Journal of Nano- and Electronic Physics Vol. 9 No 5, 05026(5pp) (2017)
Series/Report no.: DOI: 10.21272/jnep.9(5).05026;PACS numbers: 61.46. – w,68.37.Ps, 78.30.Fs,78.55. – m
Abstract: It is experimentally established that thermal annealing of single-crystal substrates of Cd1-xMnxTe (x  0.04-0.45) solid solutions in the air at 920 K results in formation of surface nanostructure (SNS). In so doing, optimal annealing time ta for each molar composition х is determined by empirical expression ta ≈ 35 + 1.3·x, min. Analysis of АFM-topograms shows that SNS is a set of pyramids with the base size 2- 5 µm, which are a combination of smaller 10-100 nm nanopyramids. The result of size quantization in the latter is luminescence band in the energy region ħ larger than the energy gap of material Eg, and its maximum ħωm with increasing х is displaced toward high-energy region. Large half-width of this band is due to considerable spread in dimensions of small nanopyramids. Displacement of maxima of bands of differential optical transmission spectra of substrates with SNS to low-energy region is explained by joint action of light absorption and scattering with participation of free pyramids.
URI: http://hdl.handle.net/123456789/3382
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