H. J. Kim scite author profile

The below band-gap optical-absorption characteristics of GaxIn1−xSb alloy system have been reported. The different dependencies of the hole and electron absorption mechanisms on wavelength result in significant changes of the absorption characteristics with alloy composition. In the undoped Ga-rich alloy compositions that are p type in nature (due to residual holes resulting from native defects), the inter-valence-band absorption has been found to be the dominant absorption mechanism. With decreasing Ga (increasing indium) mole fraction, the hole to electron ratio decreases for undoped samples. For such samples, absorption due to electrons becomes significant. With n-type extrinsic doping, intervalley transitions are seen for certain Ga-rich compositions, which also alter the absorption characteristics. The dependencies of various absorption mechanisms as a function of wavelength have been analyzed and discussed in this paper. Based on the theoretical analysis presented in this paper, one can calculate the extrinsic doping level necessary for each alloy composition in order to obtain high optical transparency necessary for infrared optical applications.

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Kim

Cho

Kim

2000

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Photoluminescence Properties of Dy3+ Ion-Doped Li2O-PbO-Gd2O3-SiO2 Glasses for White Light Application

et al. 2019

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The photoluminescence, optical and physical properties of Sm3+-doped lithium yttrium borate glasses

Kaewnuam¹,

Kim²,

Jayasankar³

et al. 2016

Phys. Chem. Glasses: Eur. J. Glass Sci. Technol. B

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H. J. Kim

Gamma-ray and neutron shielding efficiency of Pb-free gadolinium-based glasses

Below band-gap optical absorption in GaxIn1−xSb alloys

Untitled

Photoluminescence Properties of Dy3+ Ion-Doped Li2O-PbO-Gd2O3-SiO2 Glasses for White Light Application

The photoluminescence, optical and physical properties of Sm3+-doped lithium yttrium borate glasses

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