表面热透镜技术探测光学薄膜的微弱吸收

对表面热透镜技术测量光学薄膜的微弱吸收进行了理论分析,并以此建立了薄膜微弱吸收测量实验装置,对几种典型薄膜的吸收进行了测试,证实了这种方法的可行性。     

1064 nm窄带干涉滤光片激光破坏研究

干涉滤光片由于内部谐振场共振吸收特性,其激光破坏过程有别于全反膜而具有特殊的性质。本文从谐振场及湿度场理论出发,计算得出了ZnS/MgF2为主材料的滤光片的谐振场及温度场分布规律。在此规律指导下,对相同膜系结构的一系列滤光片的激光破坏阈值、吸收及破坏形貌进行了测量与分析,结合实验结果对干涉滤光片独具特色的破坏发展过程作出了描述,并给出了一定的解释。     

复杂厚板的条形传递函数解

建立了规则区域厚板混合状态变量的条形传递函数解,通过定义结点变量,并利用结点位移连续和力平衡条件,将多个简单子区域的解进行组装,从而得到了复杂形状,复杂边界条件厚板的条形传递函数解,由于条形传递函数法的节点位移变量与有限元法的节点位移变量完全一致,可将简单矩形板的条形传递函数解作为一个超东级单元,直拉将超级单元和有限元单元进行综合,可以得到复杂板的条形传递函数解,进一步增强了条形传递函数法对复杂反问题的适应性。     

丁酮分子的共振增强多光子电离解离研究

利用可调谐染料激光研究了丁酮分子的共振增强多光子电离解离过程,发现在428～448nm激光波段丁酮分子发生的是经4p和4dRydberg态的(3+1)多光子过程。此外,我们还用“梯开关”模型对丁酮母体离子的解离机理和各碎片来源作了详细的分析,分析认为在丁酮母体离子的解离过程中存在H原子重排与电荷的重新分布现象。     

Studies on the Valence Band of Ethylene (C2 H4) on Fu ( ) Surface

The ethylene(C2H4)absorbs in molecular state on Ru (1010) surface stably below 200K. The dehydrogenated of ethylene occurs at 200K. The main product of the dehydrogenation of the absorbed ethylene is the acetylene (C2H2). After the dehydrogenation of the absorbed ethylene, the binding energies ofσCCandσCHbond have an increase of 0.5 and 1.1eV respectively. The C-C bonds of both ethylene and acetylene tilt in <0001> azimuth.     

Tri­carbonyl­[1,1′,1′′-ethyl­idyne­tris­(pyrazole-κN2)]­rhenium(I) bromide and tri­carbonyl­[methyl­idyne­tris­(pyrazole-κN2)]­rhenium(I) iodide ethanol hemisolvate

The two title compounds, [Re(C₁₀H₁₀N₆)(CO)₃]Br and [Re(C₁₁H₁₂N₆)(CO)₃]I·0.5C₂H₆O, have slightly distorted octahedral geometries about the rhenium centers. The distortions result from the constraints of the η³-coordinated tris­(pyrazol-1-yl)­methane ligands in each case which reduce the N—Re—N bond angles well below the preferred value of 90° for facially disposed ligands at a six-coordinate metal center.     

α‐Diamine Nickel Catalysts with Nonplanar Chelate Rings for Ethylene Polymerization

A series of novel α‐diamine nickel complexes, (ArNH‐C(Me)‐(Me)C‐NHAr)NiBr₂, 1 : Ar=2,6‐diisopropylphenyl, 2 : Ar=2,6‐dimethylphenyl, 3 : Ar=phenyl), have been synthesized and characterized. X‐ray crystallographic analysis showed that the coordination geometry of the α‐diamine nickel complexes is markedly different from conventional α‐diimine nickel complexes, and that the chelate ring (N‐C‐C‐N‐Ni) of the α‐diamine nickel complex is significantly distorted. The α‐diamine nickel catalysts also display different steric effects on ethylene polymerization in comparison to the α‐diimine nickel catalyst. Increasing the steric hindrance of the α‐diamine ligand by substitution of the o‐methyl groups with o‐isopropyl groups leads to decreased polymerization activity and molecular weight; however, catalyst thermal stability is significantly enhanced. Living polymerizations of ethylene can be successfully achieved using 1 /Et₂AlCl at 35 °C or 2 /Et₂AlCl at 0 °C. The bulky α‐diamine nickel catalyst 1 with isopropyl substituents can additionally be used to control the branching topology of the obtained polyethylene at the same level of branching density by tuning the reaction temperature and ethylene pressure.     

激光溅射Cu等离子体与气相CH3CN团簇的反应

用激光溅射 -分子束技术研究了Cu等离子体与乙腈团簇的气相反应 .观察到Cu+ (CH3 CN) n、CH2 CN+ (CH3 CN) n、H+ (CH3 CN) n 和CH3 CHCN+ (CH3 CN) n 四个种类的团簇离子 .考察了等离子体作用于脉冲分子束的不同位置 ,对团簇产物的种类和尺寸大小的影响 .实验结果表明 ,Cu+ (CH3 CN) n 是由Cu+ 与乙腈团簇直接缔合而成 ,CH2 CN+ (CH3 CN) n、H+ (CH3 CN) n 主要是激光等离子体中的电子与乙腈团簇碰撞电离产生的 ,而CH3 CHCN+ (CH3 CN) n 是由乙腈团簇离子内的离子 分子反应生成的 .     

产生惰性气体高价离子的新方法

此文介绍了一种产生惰性气体高价离子的新方法。在飞行时间质谱仪（ＴＯＦ－ＭＳ）上，把聚焦后的３０８ｎｍ激光掠射到不锈钢栅网上，产生超短脉冲的电子束，利用这种电子束来轰击惰性气体（Ｈｅ，Ｎｅ，Ａｒ，Ｋｒ，Ｘｅ），产生高价离子，并给出了这些离子的飞行时间质谱。这些高价离子可能是电子逐次电离气体原子产生的。这种方法可作为飞行时间质谱的一种理想的“软电离”的“点”离子源