We report a first principles calculation of gallium arsenide optical properties based on the density-functional theory in the local-density approximation. The nonlocality of the pseudopotential has a sizable effect on the computed spectrum and on the static dielectric constant. The effect of a ''scissors-operator'' shift of the energy bands is discussed
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We report a first principles calculation of gallium arsenide optical properties based on the density...
We report a first principles calculation of gallium arsenide optical properties based on the density...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
The reliability of the widespread practice of calculating the optical properties of solids using pse...
The reliability of the widespread practice of calculating the optical properties of solids using pse...
The reliability of the widespread practice of calculating the optical properties of solids using pse...
First principles calculations for structural and electronic properties of GaAs have been reported us...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We report a first principles calculation of gallium arsenide optical properties based on the density...
We report a first principles calculation of gallium arsenide optical properties based on the density...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
The reliability of the widespread practice of calculating the optical properties of solids using pse...
The reliability of the widespread practice of calculating the optical properties of solids using pse...
The reliability of the widespread practice of calculating the optical properties of solids using pse...
First principles calculations for structural and electronic properties of GaAs have been reported us...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
We present a first-principles calculation of self-energy effects on the optical properties of the Ga...
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