We have calculated the reflectance anisotropy for the GaAs (110) surface using the discrete cellular method. This method extends the range of application of standard discrete dipole calculations by incorporating nonlocal polarizabilitites. The method adds a second quantum mechanical channel of nonlocality, which turns out to be necessary and yields very good agreement between theory and experiment.
A subdivision of space into discrete cells underlies the traditional discrete dipole model. This mod...
Nonlocal interactions play a prominent role in the optics of inhomogeneous systems. Classical discre...
The optical properties of GaAs(110) and GaP(110) surfaces are studied by means of self-consistent lo...
We have calculated the reflectance anisotropy for the GaAs (110) surface using the discrete cellular...
We have calculated the reflectance anisotropy for the GaAs (110) surface using the discrete cellular...
We demonstrate that the description of the optical reflectance anisotropy of GaAs(110) requires a co...
We demonstrate that the description of the optical reflectance anisotropy of GaAs(110) requires a co...
We demonstrate that the description of the optical reflectance anisotropy of GaAs(110) requires a co...
Nonlocal interactions play a prominent role in the optics of inhomogeneous systems. Classical discre...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
A method for the calculation of the surface local-field effect on reflectance has been developed. It...
The optical properties of the GaAs(110) surface are studied by means of self-consistent local-densit...
A subdivision of space into discrete cells underlies the traditional discrete dipole model. This mod...
Nonlocal interactions play a prominent role in the optics of inhomogeneous systems. Classical discre...
The optical properties of GaAs(110) and GaP(110) surfaces are studied by means of self-consistent lo...
We have calculated the reflectance anisotropy for the GaAs (110) surface using the discrete cellular...
We have calculated the reflectance anisotropy for the GaAs (110) surface using the discrete cellular...
We demonstrate that the description of the optical reflectance anisotropy of GaAs(110) requires a co...
We demonstrate that the description of the optical reflectance anisotropy of GaAs(110) requires a co...
We demonstrate that the description of the optical reflectance anisotropy of GaAs(110) requires a co...
Nonlocal interactions play a prominent role in the optics of inhomogeneous systems. Classical discre...
We compute the optical properties of the (110) surface of gallium arsenide within the first-principl...
A method for the calculation of the surface local-field effect on reflectance has been developed. It...
The optical properties of the GaAs(110) surface are studied by means of self-consistent local-densit...
A subdivision of space into discrete cells underlies the traditional discrete dipole model. This mod...
Nonlocal interactions play a prominent role in the optics of inhomogeneous systems. Classical discre...
The optical properties of GaAs(110) and GaP(110) surfaces are studied by means of self-consistent lo...
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