载能团簇离子诱发的非线性二次离子发射

载能团簇离子进入固体时， 由于集体相互作用，在入射路径上产生非常高的能量沉积密度。 实验发现， 载能团簇离子的作用结果并不等于团簇中各原子独立作用的总和， 而是具有非线性效应。 就二次离子发射而言， 这种非线性通常与团簇的能量、 团簇的大小、 离子的电荷态以及靶物质的结构有关。 通过研究二次离子发射有助于理解载能团簇离子与物质相互作用过程中的能量沉积与释放机制。 Using energetic cluster as projectile is a unique way to produce simultaneous impacts of several atoms and deposit extremely high energy density in a very small area. The cluster impingement on solids has exhibited some non linear effects not presented in collisions of individual atoms with those solids. The study of the secondary ion emissions can give insight into the energy deposition and relaxation steps of the cluster solid interaction. The dependence of the yields of secondary ion emission induced by clusters on the energy of clusters,cluster sizes,charge states and material structures of the targets was reviewed in this paper.     

Optical Planar Waveguides in KTiOPO4 Crystals by MeV Oxygen Ion Implantation

We report on the optical planar waveguide formation in KTiOPO4 crystals by single or double oxygen ion implantation at energies of 2.4-3.0 MeV and doses of 1015 ions/cm^2. The dark-line spectroscopy properties are investigated by a prism-coupling method. With an effective refractive index method, the refractive index profiles of the waveguides are reconstructed. The program code TRIM＇98 （transport of ions in matter） is used to simulate the implantation process of oxygen ions into the KTiOPO4 crystal. It is found that an inherent relationship exists between the nuclear damage and the refractive index changes induced by the ion-beam implantation.     

载能团簇离子在物质中的能量损失

实验表明，团簇离子在物质中的能量损失并不等于各成分单独作用的总和，而是具有非线性效应．这种非线性效应与团簇离子的能量、团簇的种类和大小、团簇成分之间的空间关联程度以及作用物质的结构有关．对团簇作用的非线性效应研究对于了解团簇与物质相互作用的机制具有非常重要的理论意义．MeV能区的团簇离子在物质中的非线性电子能损和核能损方面的直接实验数据还相当缺乏，其理论模型也更待建立．评述了载能团簇离子在物质中的能量损失及测量方法．Fast ions deposit energy in matter through electronic and nuclear collision processes. The relaxation of the deposited energy induces emission of photons, electrons, ions, and neutral species from the target. Comparing with single incident ion, cluster induces many new phenomena: such as non-linear energy loss, non-linear emission of secondary ions, production of giant tracks and craters in various irradiated materials. These new phenomena induced by clusters are attributed to the vicinage effect ......     

载能团簇离子的非线性辐照损伤

由于团簇离子在能量损失、二次离子发射和辐照损伤上的非线性效应，所以团簇离子与物质的相互作用倍受关注。对团簇作用的非线性效应研究不仅对于了解团簇离子与物质相互作用的机制具有十分重要的理论意义，而且载能团簇离子还有可能成为材料表面改性与分析、新功能材料的合成与研究的一种有效的新手段。因此，团簇离子与物质的相互作用成为当今国际上的研究热点之一。主要评述了载能团簇离子在物质中的非线性辐照损伤，介绍了典型的研究方法和实验结果。 Due to energetic cluster produces simultaneous impacts of several atoms and deposits extremely high energy density in a very small area, the cluster impingement on solids has produced non-linear radiation damages not presented in the collisions of individual atoms with those solids. The radiation damages are usually investigated by channeling Rutherford backscattering, Scanning Tunneling Microscope （STM）, Transmission Electronic c Microscope（TEM） and computer simulation. The typical methods and results on the non-linear radiation damages induced by clusters are reviewed in this paper.     

加速器束流脉冲化及氢二次离子发射研究

详细介绍了快速高压晶体管开关在加速器束流脉冲化和用于二次离子测量的加速器飞行时间谱仪上的应用. 利用飞行时间法研究了碳纳米管在不同能量的Si和Si2团簇离子轰击下氢二次离子的发射. 实验结果表明， 在每个原子质量单位的速度为2.5×108 cm/s以上， Si和Si2离子引起的氢二次离子的发射主要受电子阻止过程控制； 在每个原子质量单位的速度为2.5×108 cm/s以下和Si2团簇离子轰击的情况下， 氢二次离子的发射产额明显增加， 团簇离子在靶表面的核能损增强效应起主要作用. The application of Fast High Voltage Transistor Switches (HTS) in pulsed ion beam and the time of flight(TOF ) setup is described. Secondary ion emissions from carbon nanotubes under bombardments of MeV Si and Si2 clusters are measured by using TOF. The measurements indicate that the yield of the secondary ion emissions of hydrogen increases with increasing energy of Si and it is attributed to the electronic processes. The yield of the secondary ions of hydrogen decreases with increasing energy of Si2 clusters and the enhancement of nuclear energy loss of cluster constituents at the surface of sample plays a more significant role in the secondary ion emission of hydrogen at the low energies.     

Ion－Implanted Waveguides in a Nd^3＋－Doped Silicate Glass

Monomode enhanced-index Nd^3 -doped silicate glass waveguides fabricated by ion implantation are reported.The Nd^3 -doped silicate glass was implanted by 3.0 MeV B^ ions, 3.0 MeV 0^ ions and 4.5 MeV Ni^2 ions,respectively. A prism-coupling method was carried out to measure dark modes in the Nd^3 -doped silicate glassusing a model 2010 prism coupler. The moving fibre method was applied to measure the waveguide propagationloss. After a moderate annealing, the 3.0-MeV B^ -ion implanted waveguide loss is about 3.54 dB/cm; the 3.0-Me V O^ -ion implanted waveguide loss is about 5.36 dB/cm; and the 4.5-MeV the Ni^2 -implanted waveguide lossis about 7.55dB/cm. The results show that with the increasing ion mass, the loss in implanted waveguide isincreased.     

制造商竞争环境下逆向供应链的政府奖惩机制研究

主要运用博弈论方法探讨制造商竞争环境下的逆向供应链奖惩机制,建立了5个决策模型,分别是逆向供应链集中式决策、以逆向供应链和不回收再制造的制造商的总利润为目标决策、逆向供应链分散式决策、政府对制造商实施奖惩机制以及政府对回收商实施奖惩机制下逆向供应链的决策模型。研究表明:竞争对回收率提高有益,竞争越激烈回收率越高;积极回收再制造的制造商的新产品零售价较低,具有价格竞争优势;奖惩制造商和奖惩回收商均能起到提高回收率的作用,奖惩力度越大,回收率越高,新产品零售价越低;奖惩制造商比奖惩回收商更能调动制造商和回收商的积极性;奖惩制造商时的回购价高于奖惩回收商时的回购价;在实施奖惩机制时,回收再制造的制造商利润高于不回收再制造的制造商的利润;不回收再制造的制造商的利润随奖惩力度的增大而降低。     

Comparison of Secondary Ion Emissions from Carbon Nanotubes under Bombardments of MeV Si and Si2 Clusters

The emission yields of H, H2, H3 and heavy ions from carbon nanotubes under bombardments of Si and Si2 clusters in an energy range of 0.3-3 MeV per atom are measured by using the time-of-flight technique (TOF). The emission yields of the secondary ions increase with increasing energy of Si and the electronic stopping processes play an important role. The enhanced emission yields of secondary ions induced by Si2 clusters at the low energies are clearly seen and attributed to the vicinage effect of the nuclear collision processes of cluster constituents and the secondary ion emissions are still dominated by electronic stopping processes at high energies.