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大高宽比硬X射线波带片制作及聚焦测试 被引量:4
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作者 李海亮 史丽娜 +2 位作者 牛洁斌 王冠亚 谢常青 《光学精密工程》 EI CAS CSCD 北大核心 2017年第11期2803-2809,共7页
为得到同步辐射光源硬X射线波段(>2keV)需要的高宽比高分辨率波带片,本文利用高加速电压(100kV)电子束光刻配合Si3N4镂空薄膜直写来减少背散射的方法,对硬X射线波带片制作技术进行了蒙特卡洛模拟和电子束光刻实验。模拟结果显示:Si_3... 为得到同步辐射光源硬X射线波段(>2keV)需要的高宽比高分辨率波带片,本文利用高加速电压(100kV)电子束光刻配合Si3N4镂空薄膜直写来减少背散射的方法,对硬X射线波带片制作技术进行了蒙特卡洛模拟和电子束光刻实验。模拟结果显示:Si_3N_4镂空薄膜衬底可以有效降低电子在抗蚀剂中传播时的背散射,进而改善高密度大高宽比容易引起的结构倒塌和粘连问题。通过调整电子束的曝光剂量,在500nm厚的镂空Si_3N_4薄膜衬底上制备出最外环宽度为150nm、金吸收体的厚度为1.6μm,高宽比大于10的硬X射线波带片。同时,引入随机支撑点结构,实现了波带片结构自支撑,提高了大高宽比波带片的稳定性。将利用该工艺制作的波带片在北京同步辐射装置X射线成像4W1A束线8keV能量下进行了聚焦测试,得到清晰的聚焦结果。 展开更多
关键词 硬X射线波带片 电子束光刻 大高宽比波带片 电子束光刻 镂空薄膜
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The Screening of Genes Sensitive to Long-Term, Low-Level Microwave Exposure and Bioinformatic Analysis of Potential Correlations to Learning and Memory 被引量:2
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作者 ZHAO Ya li li Ying Xian +6 位作者 MA Hong Bo li Dong li hai liang JIANG Rui KAN Guang Han YANG Zhen Zhong HUANG Zeng Xin 《Biomedical and Environmental Sciences》 SCIE CAS CSCD 2015年第8期558-570,共13页
Objective To gain a better understanding of gene expression changes in the brain following microwave exposure in mice. This study hopes to reveal mechanisms contributing to microwave-induced learning and memory dysfun... Objective To gain a better understanding of gene expression changes in the brain following microwave exposure in mice. This study hopes to reveal mechanisms contributing to microwave-induced learning and memory dysfunction. Methods Mice were exposed to whole body 2100 MHz microwaves with specific absorption rates (SARs) of 0.45 W/kg, 1.8 W/kg, and 3.6 W/kg for 1 hour daily for 8 weeks. Differentially expressing genes in the brains were screened using high-density oligonucleotide arrays, with genes showing more significant differences further confirmed by RT-PCR. Results The gene chip results demonstrated that 41 genes (0.45 W/kg group), 29 genes (1.8 W/kg group), and 219 genes (3.6 W/kg group) were differentially expressed. GO analysis revealed that these differentially expressed genes were primarily involved in metabolic processes, cellular metabolic processes, regulation of biological processes, macromolecular metabolic processes, biosynthetic processes, cellular protein metabolic processes, transport, developmental processes, cellular component organization, etc. KEGG pathway analysis showed that these genes are mainly involved in pathways related to ribosome, Alzheimer's disease, Parkinson's disease, long-term potentiation, Huntington's disease, and Neurotrophin signaling. Construction of a protein interaction network identified several important regulatory genes including synbindin (sbdn), Crystallin (CryaB), PPP1CA, Ywhaq, Psap, Psmb1, Pcbp2, etc., which play important roles in the processes of learning and memory. Conclusion Long-term, low-level microwave exposure may inhibit learning and memory by affecting protein and energy metabolic processes and signaling pathways relating to neurological functions or diseases. 展开更多
关键词 LONG-TERM Low-level MICROWAVE Gene chip Learning and memory
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