1) absorption loss
吸收损耗;吸收损失
2) Absorption loss
吸收损耗
1.
Absorption loss due to high harmonics of C-H vibrations, the primary loss factor in PMMA POF, was analyzed and calculated.
随着波长的增加 ,C -H谐波吸收损耗增加 ,而伸缩振动的吸收损耗比弯曲振动高一个数量级 ,且两者分别与量子数呈线性关
2.
A quarter-wave conventional film system was adopted to analyze the main effect of the distribution of electric field intensity,absorption loss and the scattering loss on the properties of 193 nm HR mirror.
采用1/4规整膜系,从电场强度、吸收损耗及散射损耗的分布几个方面,对影响193 nm反射膜性能的因素进行了分析。
3.
According to the absorption properties of erbium-doped optical fiber, there would appear a sharp absorption loss, which brought more difficulties to the actual measurement of slow light and its application in communications.
由掺铒光纤的吸收特性可知,此时必伴随着强烈的吸收损耗,这势必会给实际的慢光信号测量及光通信领域带来诸多的困难。
3) Reflection Loss
吸收损耗
1.
In order to reduce the pollution, which the electromagnetic wave being reflected back into air will pollute again the electromagnetic environment, in this paper, the double gradient model for shielding functionally gradient materials (SFGM) was put forward to realize low reflection loss and high absorption loss for electromagnetic wave.
制备的镍/镍锌铁氧体/环氧树脂梯度电磁屏蔽材料,其结果表明:在频率<1GHz时,双梯度材料对电磁波的反射损耗比非梯度材料平均降低了6~8dB;而吸收损耗平均提高了6~14dB。
4) absorption loss
吸收损失
1.
The results indicated that after the Nd,Cr:GSGG crystal was annealed in the oxidation atmosphere,the absorption spectrum exist two absorption bands near 1μm due to some Cr~(4+) ions in the crystal,which are called 1μm absorption loss.
氧化气氛下退火后的吸收光谱中,在1μm处出现了由于晶体中存在Cr4+离子所引起的两个吸收带,被称为1μm吸收损失。
2.
Titanium oxide and silicon dioxide were used as thinfilm materials and deposition parameters were optimized to minimize the absorption loss,so there could be effective reflection reducing and protection for fluorinated magnesium substrates.
经过实验,选取氧化钛与二氧化硅作为薄膜材料,并优化沉积工艺参数,尽可能减少吸收损失,对氟化镁基底实现有效的增透和保护。
5) reabsorption loss
再吸收损耗
1.
To reduce the high-frequency noise of frequency doubling output of the blue laser,a method of decreasing reabsorption losses in quasi-three-level laser system was presented by inc.
为了降低该激光器件倍频输出功率的高频噪声,采用了提高腔内基频光循环强度和缩短激光晶体以减小准三能级激光系统再吸收损耗的方法来实现473 nm激光器的低噪声运转。
2.
Through analyzing reabsorption loss of current quasi-three-level systems and contrasting the experimental result,the threshold power as well as the inversed thermal particles were obtained,and the steady-state behavior of the improved ring cavity double-clad Tm3+-doped fiber laser was investigated.
通过分析准三能级系统的再吸收损耗并对比实验结果,获得了双包层掺Tm3+光纤激光器的阈值功率和热平衡时反转粒子的数量;研究了所设计的环形腔双包层Tm3+光纤激光器的稳态特性,仿真结果表明:环形腔结构下,整个光纤都处于高泵浦状态之中,且随入射功率的增加,泵浦功率增加更明显;在光纤长度不变的情况下,二色镜最佳反射率随泵浦功率的增加逐渐增大;在二色镜反射率不变的情况下,随泵浦功率的增加,最佳光纤长度逐渐增加。
6) loss absorption peak
损耗吸收峰
1.
It is found that one high loss absorption peak of almost up to 40dB appears for the coat with 2.
5GHz频率左右有一较大的损耗吸收峰,峰高达40dB。
2.
It is found that one big loss absorption peaks of one coat with 2.
5GHz频率左右有一较大的损耗吸收峰 ,峰值高达40dB。
补充资料:介质损耗角正切试验(见电容率与损耗因数试验)
介质损耗角正切试验(见电容率与损耗因数试验)
dielectric loss tangent test
)!eZh.sunhooJ一002匕engq一e sh一yon介质损耗角正切试验(dieleetri。1055 tangenttest)见电容率与损耗因数试验。
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