It shows that,for the one-dimensional photonic crystals,there are abnormal refraction in the first band.

The electronic and energy-band structures of the title alloys have been studied by using the tight-binding method within the extended Huckel approximation(EHT).

The electronic structure of a quaternary alloy has been investigated using EHT band calculation method.

A simplified calculation of the energy band structure for a diamond-type crystal;

The energy band structure of AgBr crystal;

A Calculation of energy band of crystal silicon using density functional theory and first-principles

Propagation of water wave over a periodically perforated bottom and the band structure

Meantime,the energy band structures and densi- ty of state of poly(2,5-pyridinediyl)(PPY)were analyzed.

The effects of inhomogeneous strain on the band structure and TE mode gain were studied for low dimensional quantum systems.

The energy dispersion relations and wave functions of armchair carbon nanotubes under axial strain were derived analytically,the affluence of axial strain on the energy bands,Fermi wave vector,Fermi dot and effective mass near Fermi face of armchair carbon nanotubes were investigated.

The photo-induced voltage between the back etching and edge etching silicon were compared, explaining the difference by means of the theory of energy bands.