相对论电子束对波的相速的影响

在小信号情况下研究了相对论电子束对加速器微波相速的影响.首次提出了电子束流的介质等效的思想,并建立了等效的相对介电常数的计算公式.同时,建立了考虑小信号下相对论电子束的盘荷波导的简化色散方程.     

电子束作用下双酚A型环氧树脂体系的固化特征

当前 ,先进树脂基复合材料基本上都是采用加热固化成型的 ,由于其工艺周期长 ,造成复合材料的制造成本较高 ,同时 ,热固化采用的固化剂和有机溶剂往往会对操作人员及环境造成危害 .为顺应复合材料低成本化和无公害化的发展趋势 ,树脂基复合材料的电子束辐射固化技术逐渐发展起来 .复合材料的电子束固化技术是在 2 0世纪 80年代初 ,由法国Ａｅｒｏｐａｔｉｃｌｅ的研究人员首先进行的[1] .近年来 ,美国、日本、加拿大及欧洲的许多国家都在积极从事于研究和利用此项技术 ,并且已经取得了可观的成果[2 ] .我国在这方面的研究工作也开始起步 .作…     

击靶电子束物理的解析模型

把聚焦到直径约2mm的kA级高能电子束投射到轫致转换靶（高Z金属）上,在靶附近产生10^2MV/m级的轴向电场使靶表面向电子束内发射离子流。此反流离子形成离子聚焦通道,使电子束过聚焦。用两种解析模型求出稳态近似下电子束内的电势分布、离子电流密度、离子电荷密度、电子束中和因子以及反流离子对束聚焦的影响。     

电子束蒸镀ＭＣＰ超薄防离子反馈膜及膜层特性分析

为了进行ＭＣＰ超薄防离子反馈膜的性能评价研究,并使这种膜层具有良好离子阻挡能力,利用电子束蒸发方法,在微通道板（ＭＣＰ）输入面上制备一种超薄Ａｌ２Ｏ３防离子反馈膜,其膜层厚度为２ ｎｍ时仍连续致密。通过对Ａｌ２Ｏ３防离子反馈膜的电子透过特性测试,给出２ ｎｍ及４ ｎｍ厚防离子反馈膜对应的死区电压分别约为１５０ Ｖ及２００ Ｖ;利用Ｍｏｎｔｅ-Ｃａｒｌｏ法模拟分析了Ａｌ２Ｏ３防离子反馈膜的离子阻挡特性,２ ｎｍ及４ ｎｍ厚Ａｌ２Ｏ３防离子反馈膜对碳离子等的阻挡率分别高于４０％及８６％,另外对有无膜的ＭＣＰ电特性进行测试,可以看出镀２ ｎｍ及４ ｎｍ厚的膜后,ＭＣＰ电子增益分别降低了５１％及８１％。     

SiO2阻挡层对电子束沉积法生长高迁移率IWO薄膜性能的影响

利用电子束沉积技术在玻璃衬底上制备了IWO( In2O3∶WO3)薄膜和SiO2缓冲层,并将SiO2缓冲层对IWO薄膜性能的影响作了探究.SiO2缓冲层在室温生长.SIMS测试表明:SiO2缓冲层能有效阻挡浮法玻璃中的杂质进入到IWO薄膜.实验获得的具有SiO2阻挡层的IWO薄膜的电子迁移率μ～54.5 cm2·V-1·s-1,电阻率p ～5.86×10-4Ω,cm,电子载流子浓度n～ 1.95×1020 cm-3,400～1600nm砌光谱区域内的平均透过率～76;.     

用于聚焦离子束系统的离子源

介绍了现阶段两种用于聚焦离子束系统的离子源——液态金属离子源和气体场发射离子源的基本原理, 并对比了它们的优缺点。由于目前这两种离子源都难以满足纳米加工领域不断提高的技术要求, 因此提出了一种用于聚焦离子束的新型离子源——电子束离子源, 并介绍了电子束离子源的基本原理, 给出了设计参数、 模拟结果（20 kV的Ar+离子束, 发射度约为5.8×10-5·mm·mrad, 束斑约为1 μm）和初步的实验结果。 There are two kinds of ion sources, Liquid Metal Ion Source and Gas Field Ion Source, used to provide ion beams for the Focus Ion Beam system. The working mechanism of the two kinds of sources is presented and their advantages and disadvantages are summarized. With the rapid development in the nano technology, the requirements are hardly met with these two kinds of ion sources. Therefore, a new kind of ion source, electron beam ion source, is developed for the Focus Ion Beam system. The basic principle of the electron beam ion source is introduced and the design parameters, the result of the simulation (20 kV Ar+, extracted emittance is 5.8×10-5π·mm·mrad, raduis of the ion beam about 1 μm.) and the primary experimental results are presented     

Influence of multi-photon pulses on practical differential-phase-shift quantum key distribution

The influence of multi-photon pulses on practical differcBtial-phase-shift quantum key distribution （DPS-Qt（D） is analysed. We have estimated the information which Eve obtained by PNS （photon-number splitting） attack and BS （beam splitting） attack. The result indicates that the PNS attack and BS attack will not limit the transmission distance as long as we select an appropriate mean photon number. Also, the maximum mean photon number under BS attack in practical DPS-QKD system and the set of practical assumptions about Eve＇s capabilities are presented.[第一段]     

聚四氟乙烯密封材料的电子束辐射效应研究

采用低能电子束辐射系统地研究了操作氚系统用密封材料（聚四氟乙烯）的辐射效应。利用扫描电镜和X光电子能谱仪分析了材料的表观形貌和表面元素的变化,用X射线粉末衍射仪和热分析仪分析了辐照前后材料的结晶度改变和热稳定性程度,并利用气相色谱仪和质谱仪测定了辐射降解气体的成分和生成量随吸收剂量的变化规律。采用电子自旋共振谱仪研究了材料在辐照过程中产生的中间体（自由基）,利用正电子湮没寿命谱仪分析了材料中的自由体积孔洞及浓度。结果表明,辐照前聚四氟氟乙烯样品的表面是规则的带状晶形结构,经1×10^5Gy辐照后样品的晶状结构遭到了明显的破坏,向非晶态转变显著。辐照后样品的熔点和热分解温度均呈下降趋势,表明样品的热稳定性降低。聚。四氟乙烯材料在氧气气氛中发生的辐射降解最为严重,其次是真空,而在氘气气氛中辐射降解最少。材料的辐射降解主要发生在主链上,即C—C键断裂,而侧基C—F键的断裂相对较少。第三寿命强度I3的变化规律与τ3相反,即随吸收剂量的增大,第三寿命的强度I3降低,表明自由体积孔洞的浓度降低。 The radiation effect of polytetrafluoroethylene used as a kind of sealing material in the tritium system was studied by using electron beam. The superficial configuration and state were analyzed by SEM and XPS respectively, and the crystal degree and thermal stability were determined by XRD and DSC. At the same time the composition of gas products after radiation ,was measured by GC/MS, and the yield of CO2 with the dose increasing was analyzed. The free radicals produced in the process of radiation were studied by ESR, and the content of free volume of PTFE is analyzed by positron annihilation lifetime spectroscopy. The result is that the crystal structure of the sample irradiated at the dose of 1 × 10^5 Gy is of an obvious damage while the structure of the unirradiated sample is crystal band. The transformation of the sample which has high crystal degree amorphous one. The melting point and thermal ecomposition temperature trend sample＇s thermal stability drops. The radiation decomposition of the sample is is remarkable from crystal state to to decline, which indiccates that the mainly the rupture of C--C bond, and less is the rupture of C--F bond. The Intensity I3 of the third lifetime fails with increasing the absorbed dose, which demonstrates the reduction of free volume cave content. Compared with I3, the rule of τ3 is reverse.     

The influence of hole shape on enhancing transmission through subwavelength hole arrays

The extraordinary light transmission through a 200-nm thick gold film when passing through different subwavelength hole arrays is observed experimentally. The sample is fabricated by electron beam lithography and reactive ion etching system. A comparison between light transmissions shows that the hole shape changing from rectangular to diamond strongly affects the transmission intensity although both structures possess the same lattice constant of 600,nm. Moreover, the position of the transmission maximum undergoes a spectral red-shift of about 63,nm. Numerical simulations by using a transfer matrix method reproduce the observed transmission spectrum quite well.     

环氧树脂E-44的电子束固化研究

涂层的传统固化方法是热固化,此种固化过程耗时长达数十小时,生产效率很低,电子束固化是以电子加速器产生的电子束(EB),对样品进行辐照,使其固化的过程,与热固化相比,它有许多优越性,如电子束固化涂料体系时,树脂不需要溶剂的稀释,产生挥发性有机物质少,环境污染小;