1.A resistance macromodel for deep-submicron process epi-type substrate based on the 2D device simulation is presented.
摘要提出了一种基于二维器件模拟的深亚微米工外延型底的电阻宏模型。
2.A subsequent study also showed that a thick flowable composite lining contributed to reduced marginal integrity after the thermocycling test.
进一步的探讨则发现使用较厚的流动性底,于冷热循环后,边缘品质受影响更为显著。
3.Several amorphic carbon films with different thickness were deposited on single crystal silicon by means of pulse laser ablating graphet target at room temprature.
用激光烧蚀石墨靶方法单晶硅底表面沉积了不同厚度的非晶碳膜。
4.Magnesium oxide thin films on Y-cut lithium niobate single crystal substrate are prepared by sol-gel processing then,a Mg-ion indiffusion process is applied to study its surface characteristics.
利用溶胶-凝胶工Y铌酸锂单晶基片底上制备氧化镁薄膜,经镁离子内扩散后,进行了其表面改性研究。
5.Based on the result of theoretical research the absorption coefficient curve of a substrate material has be ound,which ensure the three-channel BCCD work in the region of X-ray.
外延型
底的电阻宏模型。
单晶硅
铌酸锂单晶基片
