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原子氧处理对氧化锌薄膜的结构及光学特性的影响 总被引:1,自引:1,他引:0
本文采用脉冲激光沉积方法在Al2O3(0001)基底上,500℃的衬底温度条件下,制备出了具有高度C轴择优取向的氧化锌薄膜.用自行研制的同轴源型原子氧地面模拟装置,以1.62×1016AO·cm-2·s-1的原子氧束流强度(氧原子能量约5ev)对制备的薄膜进行了不同时间(30、60、90和120min)的处理.通过X射线衍射(XRD)、透射光谱和拉曼光谱等分析手段对原子氧处理前后薄膜的结构及光学特性进行了分析.氧化锌薄膜的结晶质量随原子氧作用时间增加而显著变好,晶粒尺寸呈变大趋势,缺陷浓度明显降低;氧化锌薄膜的禁带宽度随原子氧作用时间增加而变小.采用本方法处理的氧化锌薄膜,可用于制备高性能的氧化锌基光电器件. 相似文献
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In order to further understand the characteristics of the floating potential of low earth orbit spacecraft,the effects of the electron current collection area,background electron temperature,photocurrent emission,spacecraft wake,and the shape of spacecraft on spacecraft floating potential were studied here by particle-in-cell simulation in the low earth orbit.The simulation results show that the electron current collection area and background electron temperature impact on the floating potential by changing the electron current collection of spacecraft.By increasing the electron current collection area or background electron temperature,the spacecraft will float at a lower electric potential with respect to the surrounding plasma.However,the spacecraft wake affects the floating potential by increasing the ion current collected by spacecraft.The emission of the photocurrent from the spacecraft surface,which compensates for the electrons collected from background plasma,causes the floating potential to increase.The shape of the spacecraft is also an important factor influencing the floating potential. 相似文献
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基于磁异常检测(MAD)的磁性运动目标识别在军事中极具应用价值。针对目标产生的磁异常信号存在探测距离有限和特征量不易表征的问题,采用高精度隧道磁电阻传感器(HPTMR)对目标的磁异常分量进行探测方法研究,通过特征量的提取实现目标速度、方向、距离等信息的表征,最终实现目标运动状态的识别。首先对磁性物体的磁异常特征展开分析,确定探测方案,然后利用搭建的探测系统对运动目标进行水平分量的探测,研究其运动速度、方向及距离的探测规律。结果表明,通过磁异常矢量分量波形能有效地获取目标的运动状态信息,为其后续的应用和研究提供支持。 相似文献
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