A new kind of method for studying critical materials-electron backscatter diffraction (EBSD) analysis technology was introduced.
介绍了一种新型的晶体材料研究方法——电子背散射衍射分析技术。
A backscatter model was developed for measuring wind field with far-field approximation method.
提出了一种基于远场近似法建立的大气风场测量散射模型。
The backscatter method is the best one for measuring optical fiber cable.
背向散射法是光纤光缆测量的最佳方法。
A new method is proposed based on the analysis of lidar equation which selects aerosol backscatter ratio at a reference point for short range lidar in data processing.
在分析激光雷达方程的基础之上,对短程激光雷达反演气溶胶后向散射系数,提出了一种选择参考点气溶胶后向散射系数比的新方法。
A precise backscatter modeling method using digital elevation model and orthography is proposed, and three SAR real-time images with different terrains are simulated based on it.
给出了一种同时利用数字高程模型和正射图的精确后向散射建模方法,并由此得到了三幅具有不同地形特征的SAR实时图。
Method differential integrated backscatter (IB) imaging technique were used to monitor the HIFU-induced lesions, which combined IB parameter imaging with the digital differential method.
方法将超声背向散射积分(IB)参量成像与数字减影法相结合,提出IB减影成像方法用于HIFU治疗的损伤区域监控成像。
Conclusion myocardial integrated backscatter is a noninvasive, sensitive, objective method to assess early myocardial damage induced by left breast cancer radiotherapy.
结论心肌背向散射积分参数可无创、敏感、客观地评价左侧乳腺癌放疗对心脏的早期损伤。
Conclusion myocardial integrated backscatter is a noninvasive, sensitive, objective method to assess early myocardial damage induced by left breast cancer radiotherapy.
结论心肌背向散射积分参数可无创、敏感、客观地评价左侧乳腺癌放疗对心脏的早期损伤。
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