实验结果表明,该方法比现有的其它产生多分辨率图象锥的方法具有信息能量损失小的优点。
Comparing with the existing methods, the experiment results show that the method has the advantage of less information energy loss.
应用X射线衍射仪、高分辨电子显微镜和电子能量损失谱分析了纳米线的微观结构。
The nanowires were analyzed by X-ray diffraction, high resolution electron microscopy (HREM), electron energy loss spectroscopy.
本方法能够降低不同频率校正量误差的影响,尤其减少了高频成分的损失,对提高资料分辨率有较好的效果。
The method can reduce influence of errors existing in statics for different frequency, especially reduce the loss of high-frequency components, so that has a good result in improving data resolution.
介绍了用高分辨电子能量损失谱(HREELS)研究MgF2与Alq3(八羟基喹啉)的反应。
The reaction between MgF 2 and tris (8 hydroxy quinoline) aluminum (Alq 3) has been studied using high resolution electron energy loss spectroscopy (HREELS).
大孔径允许更长的焦距,从而在不损失灵敏度的情况下,提供更高的分辨率。
FLIR – The large aperture enables a longer focal length, which provides higher resolution without losing sensitivity.
合理选择子阵列构造可以解决兼并信号源分辨问题和降低阵列孔径损失。
Generally, the method can solve the sources come from the same DOA with auto-pairing and has lesser loss of the array aperture.
在引入分辨率损失的概念基础上,利用光线追迹的方法,通过ASAP软件研究了柱面透镜光栅式自由立体显示器的柱镜光栅导致自由立体显示器分辨率下降的原因。
By the method of ray tracking, ASAP software was used to analyze the resolution loss of a LCD autostereoscopic display based on lenticular sheet.
在引入分辨率损失的概念基础上,利用光线追迹的方法,通过ASAP软件研究了柱面透镜光栅式自由立体显示器的柱镜光栅导致自由立体显示器分辨率下降的原因。
By the method of ray tracking, ASAP software was used to analyze the resolution loss of a LCD autostereoscopic display based on lenticular sheet.
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