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Electronic structure of short-period ZnSe/ZnTe superlattices based on DFT calculations
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In the present study we discuss the effect of variation in the number of monolayers n on the electronic and optical properties of superlattices (SLs) (ZnSe)n/(ZnTe)n. The total energies were calculated by the full-potential linear muffin-tin orbital (FP-LMTO) method, and the exchange-correlation energy was applied in the local density approximation (LDA). First, the calculations show a decrease in the derivative of bulk modulus and electronic bandgap with an increase in the number of monolayers n. Second, the radiation energies up to 15 eV, the dielectric function ε(ω), the refractive index n(ω), and the reflectivity R(ω) are studied. These calculations may be beneficial to understand the properties of short-period superlattices (ZnSe)n/(ZnTe)n.
Yukhnovskii Institute for Condensed Matter Physics
Title: Electronic structure of short-period ZnSe/ZnTe superlattices based on DFT calculations
Description:
In the present study we discuss the effect of variation in the number of monolayers n on the electronic and optical properties of superlattices (SLs) (ZnSe)n/(ZnTe)n.
The total energies were calculated by the full-potential linear muffin-tin orbital (FP-LMTO) method, and the exchange-correlation energy was applied in the local density approximation (LDA).
First, the calculations show a decrease in the derivative of bulk modulus and electronic bandgap with an increase in the number of monolayers n.
Second, the radiation energies up to 15 eV, the dielectric function ε(ω), the refractive index n(ω), and the reflectivity R(ω) are studied.
These calculations may be beneficial to understand the properties of short-period superlattices (ZnSe)n/(ZnTe)n.
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