排序方式: 共有39条查询结果,搜索用时 15 毫秒
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通过研究(1-x)Pb(Mg1/3Nb2/3)O3-xPbTiO3 (PMNT)单晶在不同方向、不同组分下高场致应变的特性,确定了〈001〉取向PMNT单晶(29%≤x≤31%)为制作层叠式驱动器的最佳组分范围,这组分的单晶具有高场致应变、低滞后而且性能较稳定的特点.研究结果表明,在保证应变曲线的线性和低滞后的前提下,将近-2kV/cm的负电场能够运用于〈001〉方向的PMNT晶体上. 40层(每片晶片尺寸为7mm×7mm×0.7mm)PMNT层叠式驱动器在电场 -1.5-10kV/cm的驱动下,可以获得38.1μm的纵向位移,负载40N的重量后,位移量减为34μm. 相似文献
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用于活体人眼视网膜观察的自适应光学成像系统 总被引:20,自引:4,他引:16
利用自适应光学技术,研制了两套活体人眼视网膜高分辨力成像系统,在实时校正人眼波前误差的基础上,实现活体人眼视网膜细胞尺度的高分辨力成像。这两套系统分别采用19和37单元小型压电变形反射镜作为波前校正元件,哈特曼-夏克(Hartmann-Shack)波前传感器测量波前误差,用眼底反射的半导体激光作为波前探测的信标。在用计算机控制自适应光学系统实现人眼波前误差校正后,触发闪光灯照明视网膜,用CCD相机记录视网膜的高分辨力图像。校正后的残余波前误差的均方根值已分别小于1/6和1/10波长,相当于视网膜上成像分辨力分别为3.4μm和2.6μm,接近衍射极限。试验表明37单元系统的成像质量更好。 相似文献
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Hybrid Deconvolution of Adaptive Optics Retinal Images from Wavefront Sensing 总被引:1,自引:0,他引:1 下载免费PDF全文
Adaptive optics can be used to compensate for the wave aberration of the human eyes to achieve high-resolution imaging in real time. However the correction & partial due to the limitation of hardware. We propose a kind of hybrid image post-processing method, which uses the blind deconvolution combined with the residual data in wavefront sensor to restore the partially adaptive optics corrected retinal image. This method is applied in the image restoration of the vivid human retinal images. The results show that it is effective to improve the retinal image quality. 相似文献
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Adaptive optics (AO) has been proved as a powerful means for high resolution imaging of human retina. Because of the pixel number of charge-coupled device (CCD) camera, the field of view is limited to 1°. In order to have image of capillaries around vivo human fovea, we use mosaic method to obtain high resolution image in area of 6°×6°. Detailed structures of capillaries around fovea with resolution of 2.3 μm are clearly shown. Comparison shows that this method has a much higher resolution than current clinic retina imaging methods. 相似文献
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