禁带宽度越大,本征层最佳厚度也越大。
The wider the band gap, the thicker the optimal intrinsic thickness was.
圆柱半径在40 左右时,第一禁带宽度最大。
The first order forbidden energy?band width is the biggest when cylindrical radius is about 40 ?.
标签PbTiO3无定形薄膜折射率禁带宽度。
光吸收系数以及禁带宽度均随薄膜厚度的增加而下降。
Both the optical absorption coefficient and bandgap decrease with increasing in film thickness.
另外,禁带宽度对本征层最佳厚度也有一定的依赖关系。
Moreover, the band gap depends closely on the optimal thickness of intrinsic layer.
纳米管的禁带宽度随着n的增大而增大,并收敛于5 。
The band-gaps of BN(n, 0) nanotubes also increase with the increase of nand converge at 5.
氧化锌作为新一代化合物半导体,其禁带宽度对应紫外光的波长。
As a new generation of compound semiconductor, zinc oxide has widegap.
根据光电导方法,研制了DB - 1型半导体材料禁带宽度测试装置。
Based on the photoconductive method the Energy Gap Measuring Device for Semiconductor Material-Type DB-1 has been developed.
不同型号的晶体管的V_F不同是由于掺杂浓度不同导致的禁带宽度不同。
The difference of V_F of different transistors is because of the difference of band gap caused by the difference of the doping concentration.
针对其光学直接禁带宽度发生蓝移,使用量子限域和有效质量近似方法得到了解释。
The optical direct bandgap taking blue shift can be explain by quantum confinement effect effective mass approximate method.
结果表明:随着薄膜中氮含量的增加,碳氮薄膜的光学禁带宽度减小,红外反射率增加。
Results indicate that the optical band gap of the CN x films is decreased with the increasing nitrogen concentration, accompanied with the reflectance increase of the films.
本文提出了低温区高精度的禁带宽度的表达式,获得了低温区本征载流子浓度的简明公式。
A accurate expression for the bandgap and a simple formula for the intrinsic carrier concentration at low temperature are presented.
硒化物玻璃具有低的材料色散、高的禁带宽度、长的多声子吸收边,是制备中远红外光纤的优秀材料。
Selenide glasses have low material dispersion, high-energy bandgap, long-wavelength multiphonon edge and it's the perfect candidate for mid-far-infrared fibers.
光学性质显示退火处理的薄膜吸收边缘明显的向长波的方向移动,发生红移现象,而且禁带宽度减少了0。
It also showed that the optical absorption edge of the annealed film appeared shifted towards the longer wavelength side and the band gap decreased by 0.
普通多层膜系结构光子晶体的禁带内能量损失较低,可是禁带宽度通常有限,而且出现较宽的全角高反带很难。
Although the energy loss of ordinary multi-layer photonic crystal structures is low, the band gap is usually limited, there is also wide-wide Angle high anti-band hard.
金刚石具有高导热率、低介电系数、高禁带宽度、超高硬度、低摩擦系数等性质,在国民经济的许多部门得到了广泛的应用。
Diamond has many characters, such as high thermal, low permittivity, high band gap, super high hardness, low friction etc, which makes it possible to be widely used in industry.
金刚石具有高导热率、低介电系数、高禁带宽度、超高硬度、低摩擦系数等性质,在国民经济的许多部门得到了广泛的应用。
Diamond has many characters, such as high thermal, low permittivity, high band gap, super high hardness, low friction etc, which makes it possible to be widely used in industry.
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