Effect of Bi addition on the optical properties of Ge^sub 30^Se^sub 70-x^Bi^sub x^ thin films

Optical and structural properties of vacuum evaporated Ge30Se70-xBix (x = 0, 5, 10, 15 and 20) thin films are discussed in the present report. The physical properties such as coordination number (cr>), average heat of atomisation (Hs), average bond energy (Hs/), energy gap (Eg), and lane pair ele...

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Bibliographic Details
Published in:Journal of alloys and compounds 2018-03, Vol.739, p.997
Main Authors: Aparimita, Adyasha, Behera, Mukta, Sripan, C, Ganesan, R, Jena, Shuvendu, Naik, Ramakanta
Format: Article
Language:English
Subjects:
Atomizing
Band gap
Bond energy
Coordination numbers
Electrons
Energy
Energy gap
Fourier transforms
Optical properties
Physical properties
Studies
Thin films
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Summary:Optical and structural properties of vacuum evaporated Ge30Se70-xBix (x = 0, 5, 10, 15 and 20) thin films are discussed in the present report. The physical properties such as coordination number (cr>), average heat of atomisation (Hs), average bond energy (Hs/), energy gap (Eg), and lane pair electrons (L) for different Bi concentration were calculated theoretically. The structural property in the film is not disturbed as probed by X-ray diffraction method. The SEM and EDAX were done for the composition and microstructural characterization. The optical transmission is measured by the Fourier Transform Infrared spectroscopy in the spectral range of 500-1200 nm. The mechanism of the optical absorption follows the rule of allowed non-direct transition. It was found that, the optical band gap Eg decreases while the width of localized states (Urbach energy) Eg increases by increasing Bi content. The relationship between Eg and chemical composition of the Ge30Se70-xBix system were discussed in terms of cohesive energy (CE), the average heat of atomisation Hs, and the average coordination number Nr. The variation in the optical behavior for different thin films is explained on the basis of defect states and the decrease in average bond energy of the system. The Raman spectroscopy was done to correlate the optical property change with Bi addition.
ISSN:0925-8388
1873-4669