例句與造句

1. Therefore , an accurate determination of the complex refractive index of the material as a function of ge content is necessary
   因此，需要精確的決定作為鍺濃度函數(shù)的材料復(fù)數(shù)折射率。
2. Starting at the si substrate , these points are , on a point - to - point basis , converted into combinations of complex refractive index and depth in a numerical procedure
   從硅襯底開始，這些點基于點對點，采用數(shù)字過程轉(zhuǎn)換成復(fù)數(shù)折射率和深度的組合。
3. Leading into the complex refractive index and making use of the characteristic matrix method , the photonic bandgap of photonic crystal with the variety of the absorb is studied
   摘要引入復(fù)折射率并利用特征矩陣法，研究了光子晶體的吸收對光子晶體能帶的影響。
4. The present article has two goals : first , the determination of the dependence of the complex refractive index of sige alloys on the ge concentration , and second , the demonstration of the application of in situ ellipsometry during rie for depth profiling of the ge content
   本文有兩個目標(biāo)：第一，決定鍺硅合金的復(fù)數(shù)折射率與鍺濃度的關(guān)系，第二，驗證得到鍺濃度的縱向分布的rie同步橢偏測量的應(yīng)用。
5. As the size of particles increases , the scattering intensity increases ; as the size of particles increases , the horizontal polarization becomes unsymmetrical while vertical polarization invariable ; with the imaginary parts of complex refractive index increasing , the scattering intensity decreases
   當(dāng)粒子尺度增加時，散射光強增加；水平偏振變得不對稱，而垂直偏振沒有變化；當(dāng)粒子的折射率虛部增加時，散射光強減少。
6. It's difficult to find complex refractive index in a sentence. 用complex refractive index造句挺難的
7. A coherent electromagnetic pulse in the range between the far - infrared and microwave region is used as a detection source . the amplitude of the wave is recorded by electro - optical or photoconductive sampling . after fast fourier transform , the amplitude and phase of the wave is given , then the complex refractive index standing for the absorption and dispersion of the material in thz region is extracted
   Thz ( 10 ~ ( 12 ) hz )時域光譜技術(shù)是20世紀(jì)90年代發(fā)展起來的一種新型的光譜測量技術(shù)，它使用頻率介于遠(yuǎn)紅外和微波之間的相干電磁輻射脈沖作為探測源，利用電光取樣或光電導(dǎo)取樣的方法直接記錄thz輻射電場的振幅時間波形，通過傅立葉變換得到測量信號振幅和相位的光譜分布，進而獲得材料在thz波段的復(fù)介電常數(shù)，即色散及吸收等信息。