The invention relates to a device for improving utilization rate of a high vacuum ion beam sputtering target material.
本发明涉及一种高真空离子束溅镀靶材利用率增强装置。
The newly designed films of green HeNe laser have been coated by making use of ion beam sputtering deposition, and the measured results have been given out.
利用离子溅射镀膜技术镀制了所设计的膜片并且给出了测量结果。
It is of great importance to improve the properties of DLC films deposited with simultaneous ion bombardment du-ring film growth by ion beam sputtering on graphite target.
在离子束溅射石墨靶淀积dlc膜的同时用离子束轰击,对于拓宽和改善DLC膜的性质有重要意义。
The results about the research on the characters of ion beam sputtering show that grid voltage and sputtering gas pressure have great influences on ion beam distribution and current.
溅射特性研究结果表明:屏极电压和溅射气压对离子束均匀性和束流密度影响显著;
Its structure and character were reviewed, and the synthetic methods, including CVD, ion beam sputtering, laser ablation, ion plating and ion irradiation et al., were completely introduced.
目前主要采用化学气相沉积法、离子束溅射法、激光等离子体沉积和激光烧蚀、离子镀、离子注入法等制备方法。
A series of giant positive magnetoresistance of magnetic multilayer structure were fabricated by ion-beam sputtering in high vacuum with applied magnetic field and treatment.
采用离子束溅射方法制备了正巨磁电阻多层膜,在制备过程中采用外加磁场和退火处理。
The X-ray multilayer mirror for longer wavelength fabricated with ion-beam-sputtering deposition instrument OXFORD, is introduced in this paper.
叙述用离子束溅射镀膜机OXFORD进行X射线长波段多层膜实验及制备X射线多层膜光学元件方面的工作。
In ion-beam sputtering deposition and ion-beam aid deposition thin film techniques, ion-beam source is one of the key techniques.
在离子束溅射和离子辅助沉积光学薄膜技术中,离子源是其中最关键的单元技术之一。
The higher sputtering yield would result from multiple collision, lateral sputtering and high density energy deposition of gas cluster ion beam.
气体离化团束的高溅射产额可能是由于多体碰撞、侧向溅射及高能量密度的照射引起的。
The system include pulse cathodic arc ion deposition, direct current cathodic arc ion deposition, magnetic sputtering and electronic beam evaporation technologies.
该系统集脉冲阴极弧离子镀、直流阴极弧离子镀、磁控溅射和电子束蒸发等镀膜工艺以及气体和金属离子注入于一体。
The unique smoothing and cleaning effects of gas cluster ion beam wou1d result from multiple collision, lateral sputtering and high density energy deposition.
气体离化团束优良的平坦化和清洁化效果可能与照射中多体碰撞、侧向溅射及高能量密度的沉积相关。
The unique smoothing and cleaning effects of gas cluster ion beam wou1d result from multiple collision, lateral sputtering and high density energy deposition.
气体离化团束优良的平坦化和清洁化效果可能与照射中多体碰撞、侧向溅射及高能量密度的沉积相关。
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