Researches of X-ray multilayers have been carried out in this institute for years.
本文总结了长春光机所近年来开展的X射线波段多层膜光学元件研制工作。
The preparation of metallic multilayers and the test methods of their magnetic performance were introduced.
介绍了金属多层膜的制备及磁性检测方法。
On this basis, a few of principles were given about multilayers PCB design based on Field Programmable Gate Array (FPGA).
在此基础上,给出现场可编程门阵列(FPGA)多层PCB板设计原则。
Both structural properties of as deposited and annealed multilayers have been studied with transmission electron microscopy (TEM).
利用透射电子显微术(TEM)研究了这些薄膜退火前后的结构。
Using an alternating high- and low-bias voltage, we have formed hydrogen-free multilayers of hard and soft diamond-like carbon films.
本文采用交替施加高偏压和低偏压的方法,合成出了具有软膜和硬膜结构的无氢类金刚石多层膜。
The exchange-coupling magnetostrictive multilayers (ECMM) have attracted much attention because of its high low-field magnetostrictive sensitivity.
磁致伸缩交换耦合多层膜由于具有优异的低场磁致伸缩性能,受到人们的广泛关注。
The two multilayers had ordered particles both on planes and in layer by layer, which were confirmed by TEM images and small-angle X-ray diffraction measurement.
这两种多层膜经透射电子显微镜和小角X射线衍射测量证明构成多层膜的单层膜上的纳米金颗粒是有序的,并且颗粒在层与层之间的排列也是有序的。
Three main factors, layer thickness fluctuation, interfacial roughness and interdiffusion of non-ideal soft X-ray optical multilayers were characterized quantitatively.
三个主要因素,非理想的软x射线光学多层膜的界面粗糙度和相互扩散层的厚度波动,定量的特点。
Polystyrene and silica colloidal crystal multilayers with controlled thickness are fabricated quickly by the vertical deposition method at certain temperature and humidity.
通过控制温度和湿度,用垂直沉积法快速制备出了不同厚度的高质量二氧化硅和聚苯乙烯胶体晶体薄膜。
In the thesis, we investigate submonolayer and multilayers film growth process, especially study the influence of surface heterogeneities on adatoms diffusion and aggregation.
本论文研究了非均匀基底上亚单原子层薄膜与多层薄膜的生长行为,考察了基底的非均匀性对原子扩散、聚集过程的影响。
The paper introduced the principle of structure of soft X-ray optics multilayers, and released the technique of measurement and fabrication of the multilayers in the UHV system.
介绍X射线光学多层膜的构成原理、制作、测量方法及在超高真空系统中的研制技术。
This method reported here provides a facile method to improve the resilience of the multilayer and fabricate the free-standing film without changing the thickness of the multilayers.
这种方法在不改变多层膜厚度的情况下,提高了多层膜的韧性,制得了自支撑膜。
The fabrication of micro-structures on polymer surfaces has been fulfilled via patterned compression of polyelectrolyte multilayers (PEMs) and thermal pressing method (TPM) respectively.
本文分别利用聚电解质多层膜的压缩和热压技术两种方法构建了聚合物微结构。
By analyzing reflective properties of multilayers, the peak reflectivity, bandwidth and centroid wavelength as a function of roughness, period thickness and thickness ratio were obtained.
通过对极紫外多层膜反射特性的分析,得到了峰值反射率、带宽和中心波长分别随粗糙度、周期厚度以及比值变化的函数关系。
The microstructure of multilayers was characterized by high-resolution transmission electron microscopy, X-ray diffraction, scanning electron microscope and energy dispersive spectrometer.
利用透射电子显微镜、X射线衍射仪、扫描电子显微镜和X射线能量色散谱仪分析了多层膜的微结构。
The microstructure space dependence and non-localization electromagnetic transmission were found, which demonstrated the mesoscopic characteristic of the nanometer magnetic multilayers materials.
研究结果显示了纳米金属磁性多层膜材料的微结构空间位置相关性和电磁输运过程奇异的非定域特性。
PACOTHANE is a Release Film that provides quick and easy release between multilayers and serves as a buffer to protect copper from pits and dents caused by defective plates and air-born contaminants.
PACOTHANE是一种剥离膜,在多层板的各个层之间提供了一种既快捷又方便的可剥离性,并同时作为一种缓冲层,以保护铜箔因板缺陷或空气悬浮污染物而导致坑斑和凹痕。
PACOTHANE is a Release Film that provides quick and easy release between multilayers and serves as a buffer to protect copper from pits and dents caused by defective plates and air-born contaminants.
PACOTHANE是一种剥离膜,在多层板的各个层之间提供了一种既快捷又方便的可剥离性,并同时作为一种缓冲层,以保护铜箔因板缺陷或空气悬浮污染物而导致坑斑和凹痕。
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