1) band-gap energy
带隙能<光>
2) photonic band gap
光带隙性能
1.
As a composite, the permmitivities and the packing mode of components determinate its special photonic characteristics, for example, photonic band gap.
作为一种复合材料,各组份的介电性质及其空间排列方式决定了光子晶体具有独特的光带隙性能。
2.
The mechanism of photonic crystal pressure sensor was described in this paper, after an examination of the relationship of the pressure on a one-dimensional photonic crystal and its photonic band gap (PBG) property.
通过研究一维光子晶体受压力后其光带隙性能的变化 ,提出了光子晶体压力传感器的原理 。
3) Photonic Band Gap (PBG) structure
光子能带隙结构
1.
Photonic Band Gap (PBG) structure is good effective in eliminating the ground bounce noise (GBN) when frequency is up to 0.
光子能带隙结构能够有效解决高频(0。
4) energy band gap
能量带隙
1.
The effects of content of Nb2O5 on refractive index,stability,optical band gap and energy band gap of the glasses are discussed.
利用样品的吸收光谱计算了其直接允许跃迁、间接允许跃迁及能量带隙。
5) Band gap
能带隙
1.
According to the concept of "polymer band gap engineering", a series of soluble low band gap polymers were designed and synthesized, including polymers containing phenylene units among the backbone, polymers with electron- and hole- transport units as the side chains, and polymers grafted by porphyrin units.
从聚合物能带隙工程的原理出发,设计和合成了一系列可溶性的低能带隙聚合物、侧链含有电子与空穴传输单元的低能带隙聚合物以及侧链含有卟啉单元的低能带隙聚合物,并探讨了它们对聚合物太阳能电池的光谱敏化作用。
补充资料:间接带隙(见半导体的能带结构)
间接带隙(见半导体的能带结构)
indirect band gap
I’ed接带隙indireet band gap见半导体的能带结构。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条