【论文发表】课题组谷同凯博士论文被Optics Communications录用发表
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发布时间:2018-07-24
发布时间:2018-07-24
文章标题:【论文发表】课题组谷同凯博士论文被Optics Communications录用发表
内容:
【论文发表】课题组谷同凯博士论文被Optics Communications录用发表
Tongkai Gu used the excellent template-directed self-assembly method developed by our research group to manufacture the flexible liquid microsphere arrays (LMSAs), which could be used for imaging magnification. He established the model of microspheres for super-resolution and imaging magnification, then analyzed the theoretical mechanism in detail. He found that the experiment results were well matched with the theoretical model.
The LMSAs with tunable convex heights (h=0-D/2) with ultra-smooth flexible surface provide the imaging magnification of 1-3.4. The LMSAs can serve as the significant passageways for imaging photon transmission based on the evanescent waves coupling. We further study the changing of magnification with the convex height and radius of the liquid microsphere. With the radius of liquid microsphere increasing, or the convex height of liquid microsphere decreasing, lower imaging magnification can be obtained which is consistent with the simulation results. The LMSAs we reported shows great possibility in future design and fabrication of controllable super- resolution and imaging magnification devices.
The results was published by Optics Communications (OC). IF=1.887.
论文连接:https://doi.org/10.1016/j.optcom.2018.07.023