IR-induced features of AgGaGeS 4 crystalline semiconductors

Complex investigations of the photoconductivity and photoinduced absorption together with the piezoelectric features were performed for the AgGaGeS 4 semiconducting single crystals under the influence of 3.5 μs CO 2 (80 mJ) pulsed laser emitting at 10.6 μm. These crystals are transparent in the wide...

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Published inThe Journal of physics and chemistry of solids Vol. 73; no. 3; pp. 439 - 443
Main Authors Davydyuk, G.Ye, Myronchuk, G.L., Lakshminarayana, G., Yakymchuk, O.V., Reshak, A.H., Wojciechowski, A., Rakus, P., AlZayed, N., Chmiel, M., Kityk, I.V., Parasyuk, O.V.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2012
Subjects
A. Chalcogenides
A. Optical materials
B. Crystal growth
Conduction band
D. Phonons
Excitation
Illumination
Lasers
Photoconductivity
Piezoelectricity
Semiconductors
Spectra
D. Phonons
B. Crystal growth
A. Optical materials
A. Chalcogenides
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Summary:Complex investigations of the photoconductivity and photoinduced absorption together with the piezoelectric features were performed for the AgGaGeS 4 semiconducting single crystals under the influence of 3.5 μs CO 2 (80 mJ) pulsed laser emitting at 10.6 μm. These crystals are transparent in the wide spectral range 0.4–17 μm, which allows operating due to their properties in the spectral range covering the excitation of the phonons and electron subsystem. The piezoelectric properties show substantial increment during illumination by microsecond CO 2 laser and irreversible relaxation after swathing off the laser excitation. The temperature dependent studies of absorption and photoconductivity confirm the main role of intrinsic defects forming the tails of electronic states below the bottom of conduction band gap. Principal role of IR-induced electron–phonon interactions in the observed changes of the piezoelectricity is demonstrated. ► Investigations of the photoconductivity and piezoelectric features were performed for the AgGaGeS 4 single crystals. ► The photoconductivity studies have shown existence of two photoconductivity maxima at λ I=420 nm and λ II=600 nm. ► The CO 2 laser treatment has shown an increase of the absorption at 470 nm spectral line and an enhancement of piezoelectricity.
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ISSN:0022-3697
1879-2553
DOI:10.1016/j.jpcs.2011.11.026