Suitable component materials exhibit similar electronic band structures.
适当的组分材料显示出相似的电子能带结构。
The crystal structures, lattice energies and electronic band structures at ambient condition are summarized.
概述了常压下分子晶体的晶体结构、晶格能、电子键结构等晶体性质。
The overall melting temperatures of these nanowires were estimated from MD simulations, while the quantum conductance were determined from their electronic band structures.
而根据量子电导的计算,纳米线的电导总体上随着线径的增大而增加,并且晶状线比螺旋线具有更多的电导通道。
The changes of volume, band structures, electronic density of states and charge density contour plots for lithium intercalation in InSb are also discussed.
讨论了锂嵌入时的体积变化、能带结构、电子态密度以及电荷分布等性质。
Photonic crystals were periodic optical structures that were capable of generating photonic band gaps, analogous to the way of electronic band gaps generated by periodic atomic structure.
光子晶体是周期性介电结构,它能象周期性原子结构中的电子禁带一样,产生光子禁带。
The applications of photonic crystals are attributed to the special properties of electronic and optic area, and such properties are depend on photonic band structures.
光子晶体的应用源于光子晶体所具有的各种特殊光学和电学性质,而这些性质又是由晶体的光子带隙结构决定的。
Reductions of lattice spacing and force constants between atoms induce modifications in the band structures of solids and thus in electronic properties and optical properties.
晶格常数和原子间力常数的改变影响了相邻电子轨道的重合程度,引发电子能级和光学性质的变化。
Reductions of lattice spacing and force constants between atoms induce modifications in the band structures of solids and thus in electronic properties and optical properties.
晶格常数和原子间力常数的改变影响了相邻电子轨道的重合程度,引发电子能级和光学性质的变化。
应用推荐