排序方式: 共有86条查询结果,搜索用时 15 毫秒
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载能离子穿过固体界面引起界面原子迁移使界面原子混合和物质成分变化,从而导致界面发生材料相变。简要介绍了载能离子辐照引起金属/绝缘体界面混合效应及相变现象的主要实验研究进展、低能离子和高能离子辐照引起金属/绝缘体界面现象差异,并对离子辐照引起界面混合及相变的机制进行了初步探讨。When penetrating an interface between two kind of solids, energetic ions can induce atomic diffusion at both sides of the interface and then result in intermixing, atom re-distribution or composition change, as well as phase transformation. Main progress on the study of intermixing and phase change at metal/insulator interface induced by energetic ion irradiations, the difference of phenomena occurred at metal/insulator interfaces induced by high-and low-energy ions were briefly reviewed. Furthermore, the possible mechanisms related to intermixing and phase change at metal/insulator interface produced by energetic ion irradiations were also discussed in short words. 相似文献
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微束辐照装置是将辐照样品的束斑缩小到微米量级,能够对辐照粒子进行准确定位和精确计数的实验平台,是开展辐照材料学、辐照生物学、辐照生物医学以及微加工的有力工具.中国科学院近代物理研究所(IMP)正在研制中能重离子微柬辐照装置.该装置以兰州重离子加速器(HIRFL)系统提供的中能和低能重离子束流为基础,采用磁聚焦方式形成微米束.束运线上两台铅垂方向的偏转磁铁辅以四极磁铁构成对称消色差系统,将束流导向地下室,再用高梯度的三组合四极透镜强聚焦形成微米束斑,在真空中或大气中辐照样品.它将成为国内首台能够提供从低能(10MeV/u)到中能(100MeV/u)的重离子微束的公共实验平台,用于定位、定量照射靶物质(生物细胞、组织或其它非生物材料等),有助于深入揭示重离子与物质相互作用的本质,也为探索重离子辐照效应的应用提供新的手段. 相似文献
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利用傅立叶转换红外光谱和Raman谱仪分析了0.98 GeV的Fe离子在电子能损Se为3.5 keV/nm时, 不同辐照剂量(5×1010 —8×1013 ions/cm2)下, 在C60薄膜中引起的辐照损伤效应。 分析表明, Fe离子辐照引起了C60分子的聚合与损伤。 在辐照剂量达到一中间值1×1012 ions/cm2, C60分子的损伤得到部分恢复, 归因于电子激发引起的退火效应。 通过对Raman数据的拟合分析, 演绎出Fe离子辐照在C60材料中形成的潜径迹截面或引起损伤的截面约为1.32×10-14 cm2。 相似文献
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研究了230MeV的208Pb27+辐照Al2O3样品及随后在600,900,1100K高温条件下退火后的光致发光特性。从辐照样品的测试结果可以清楚地看到在波长为390,450nm处出现了强的发光峰。辐照量为1×1013ions/cm2时,样品的发光峰最强。经过600K退火2h后测试结果显示,380nm发光峰剧烈增强,而其他发光峰显示不明显。在900K退火条件下,380nm的发光峰开始减弱,而在360,510nm出现了明显的发光峰,至到1100K退火完毕后380nm的发光峰完全消失,而360,510nm的发光峰相对增强。从被辐照样品的FTIR谱中看到,波数在460~510cm-1间的吸收是振动模式,经过离子辐照后,吸收带展宽,随着辐照量的增大,Al2O3振动吸收峰消失,说明Al2O3振动模式被完全破坏。1000~1300cm-1之间为Al—O—Al桥氧的伸缩振动模式,辐照后吸收带向高波数方向移动,说明其振动模式受到影响。辐照剂量较小的样品,损伤程度相对较低,经退火晶化后,振动模式基本恢复到单晶状态;辐照剂量较高的样品,损伤程度大,退火处理后表面变得较粗糙,振动模式并未出现,说明结构破坏严重。 相似文献
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Ionic conductivity study on electron beam irradiated polyacrylonitrile-polyethylene oxide gel 下载免费PDF全文
Different mass percent polyacrylonitrile (PAN)-polyethylene oxide (PEO) gels were prepared and irradiated by an electron beam (EB) with energy of 1.0 MeV to the dose ranging from 13 kGy to 260 kGy.The gels were analysed by using Fourier transform infrared spectrum,gel fraction and ionic conductivity (IC) measurement.The results show that the gel is crosslinked by EB irradiation,the crosslinking degree rises with the increasing EB irradiation dose (ID) and the mass percents of both PAN and PEO contribute a lot to the crosslinking;in addition,EB irradiation can promote the IC of PAN-PEO gels.There exists an optimum irradiation dose,at which the IC can increase dramatically.The IC changes of the PAN-PEO gels along with ID are divided into three regions:IC rapidly increasing region,IC decreasing region and IC balanced region.The cause of the change can be ascribed to two aspects,gel capturing electron degree and crosslinking degree.By comparing the IC-ID curves of different mass percents of PAN and PEO in gel,we found that PAN plays a more important role for gel IC promotion than PEO,since addition of PAN in gel causes the IC-ID curve sharper,while addition of PEO in gel causes the curve milder. 相似文献
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纯金属中电子能损效应的实验研究 总被引:4,自引:2,他引:2
简要评述了快重离子辐照在纯金属中引起的电子能损效应的实验研究结果 ,特别是强电子能损在金属中引起的辐照缺陷的部分退火、新缺陷的产生 .离子潜径迹的形成和辐照相变等. As swift heavy ions are available for irradiation damage study, it has been tried to evidence whether electronic energy loss might play a role in the damage processes of metallic targets. Experimental investigations showed that, as increase of electronic energy loss, large amount of electronic energy loss can result in radiation annealing of part of defects produced by elastic collisions, defect creation, latent track formation, as well as phase transition, and so on. Pure metals... 相似文献
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利用能量为2.0GeV的136Xe和2.7GeV的238U离子对C60薄膜进行了辐照,并用傅立叶变换红外光谱、X射线衍射谱和拉曼散射技术分析了辐照过的C60样品,在傅立叶变换红外光谱上,首次观察到一个位于670cm-1处的,表征未知结构的新峰,研究了其强度随电子能损和辐照剂量的变化规律.分析结果表明,电子能量转移主导了C60薄膜的损伤过程;而损伤的部分恢复是由强电子激发的退火效应引起的;另外,离子的速度在损伤的建立过程中也起了一定的作用 相似文献