Guiding of 60keV O6+ Ions through Nanocapillaries in an Uncoated Al2O3 Membrane

We measure the transmission of O^6＋ ions with a higher energy of 60 keV （in turn a higher value of Ep/q） through capillaries in an uncoated AI2 03 membrane, and obtain agreements with previously reported results in general angular distribution of the transmitted ions and the transmission profile width variation with capillary tilt angle. The transmission fractions as a function of the tilt angle can be fitted to the semi-empirical Gaussian-like function well. Due to using uncoated capillary membrane, our ψc is larger than that using gold-coated one, in spite of our larger value of Ep/q, which suggests a larger equilibrium charge Q∞ in our experiment.     

强流电子束入射弯曲宏观石英管的导向效应研究

研究了强流（~129 nA）、 高能（1 500～1 900 eV）电子束在大角度(9°)弯曲宏观石英管中的导向效应。 实验分别测量了入射流强及能量对出射电子角分布值（FWHM）和传输效率的影响。 实验观察到出射电子角分布FWHM随着入射电子流强和入射电子能量增加变化均不明显; 发现电子传输效率随入射流强增加而增加, 但随入射能量增加而减小, 这与高电荷态离子导向中离子传输效率随入射能量增加而增加的现象相反。 分析发现, 与高电荷态离子导向机制不同, 电子束导向并非是由电子在石英管内壁的自组织充电过程引起的, 而是入射电子与管内壁弹性和非弹性散射碰撞共同作用的结果。 By using an incident electron beam with the high current and high energy, the guiding effect of the bended macroscopic quartz tube for the electron beam has been investigated. The angular distributions of outgoing electrons depending on the current and energy of incident electrons were measured. The dependences of electron transmitted fraction on energy and current of incident electrons are also shown. As the incident electron energy increasing, the electron transmitted fraction increases, but it decreases while the incident electron current increasing. The results have been compared with the present data. This work presents, the process of guiding electrons is essentially different from that of guiding highly charged ions, the guiding electron beam was caused by both elastic and inelastic collisions between electrons and inner walls of quartz tube, rather than self organized charging effect on the surface of inner wall of quartz tube.     

Guiding of 150 keV O6＋ ions through nanocapillaries in an uncoated Al2O3 membrane： special time dependence of the transmission profile width

<正>This paper reports that the transmission of O⁶⁺ ions with energy of 150keV through capillaries in an uncoated Al₂O₃ membrane was measured,and agreements with previously reported results in general angular distribution of the transmitted ions and the transmission fractions as a function of the tilt angle well fitted to Gaussian-like functions were observed.Due to using an uncoated capillary membrane,ourψ_c is larger than that using a gold-coated one with a smaller value of（?）,which suggests a larger equilibrium charge Q_∞in our experiment.The observed special width variation with time and a larger width than that using a smaller（?） were qualitatively explained by using mean-field classical transport theory based on a classical-trajectory Monte Carlo simulation.     

Guided transmission of oxygen ions through Al2O3 nanocapillaries

The transmissions of oxygen ions through Al2O3 nanocapillaries each 50 nm in diameter and 10 μm in length at a series of different tilt angles are measured,where the ions with energies ranging from 10 to 60 keV and charge states from 1 up to 6 are involved.The angular distribution and the transmission yields of transported ions are investigated.Our results indicate both the existence of a guiding effect when ions pass through the capillary and a significant dependence of the ion transmission on the energy and the charge state of the ions.The guiding effects are observed to be enhanced at lower projectile energies and higher charge states.Meanwhile,the results also exhibit that the transmission yields increase as the tilt angle decreases at a given energy and charge state.     

Simulations of guiding of low-energy ions through a single nanocapillary in insulating materials

Simulations of guiding of low-energy ions through a single nanocapillary in insulating polymers are reported. The nanocapillary has a diameter of 100 nm and a length of 10 μm. Different from previous work, in our simulations a hyperbolic function is used to describe the decay of the charges deposited on the capillary surface. The present simulations reproduce the self-organized charge-up process occurring in the capillary. It is shown that lower-energy ions undergo more oscillations to get guiding equilibrium than those of higher-energy ions, resulting in a longer charging time, which is in good agreement with previous experimental results. Moreover, the experimentally observed mass independence of ion guiding is proved in our simulations. In particular, it is found that the maximum of the repulsive field within the capillary is independent of the ion energy as well as the tilt angle. To counterbalance the increasing of the transversal energy caused by increasing the tilt angle or incident energy, the effective length of the repulsive field is expanded in a self-organizing manner.     

Interaction of O3+ Ions with Al2O3 Nanocapillaries

We investigate angular distributions of the transmitted 60 keV and 120 keV O^3＋ ions through nanocapillaries with 50hm diameter and 10μm length. The experimental results are in agreement with the ＇guiding effect＇ found by Stolterfoht et al. For different tilted angles of the nanocapillary membrane with respect to the beam, the angular distributions of the transmitted ions are measured by a one-dimensional micro-channel plate （MCP） detector. Moreover, the dependence of this guiding effect on the projectile energy is studied.     

宏观尺寸弯曲石英管对中低能电子束的导向作用

研究了宏观尺寸的弯曲圆柱形石英管对 1 100, 1 300和1 500 eV 3种能量电子束的导向作用, 并对实验结果与相同材质和尺寸的直管的情形进行了分析对比。 实验中利用一个位置灵敏法拉第筒对从石英管出射的电子束进行探测, 获得从管道中出射的电子束流强度在位置灵敏法拉第筒各道上的分布, 其结果显示宏观尺寸石英管对电子束存在导向作用。 与慢速高电荷态离子和绝缘毛细管相互作用的物理过程类似, 这种导向效应是由电荷在管壁内表面自组织充电引起的。 实验还发现, 入射电子束流的强度越强, 其导向作用越明显, 这与微观尺寸毛细管对慢速高电荷态离子的导向作用不同。 石英管导向能力与管的尺寸、 形状及材料之间的关系还有待进一步的系统研究。 It was inevstigated in the experiment that the guiding effect of electron beam with energy of 1 100, 1 300 and 1 500 eV through a bended cylindrical quartz tube with macro sized. A position sensitive Faraday cup was developed and used to detect the electron beam transmitted through the quartz tube, and the distribution of transmitted beam current on each channel of the Faraday cup was acquired. Results indicate the existence of guiding effect which is due to the self organized charge up in the inner wall of the quartz tube similar to that of the highly charged ions. We also found that the guiding ability of the tube is related to the incident beam intensity. The relationship between the guiding ability and the material as well as the size of the tube is to be studied in the near future.     

Ion Velocity Distributions in a Non-Stationary Perpendicular Shock

Previous particle-in-cell simulations have evidenced that supercritical, quasi-perpendicular shocks are non-stationary. By separating the incident ions into reflected （R） and directly transmitted （DT） parts, we investigate the ion distributions in a non-stationary perpendicular shock. The upstream ion distributions have two parts corresponding to the R and incident ions respectively, while the R ions have higher energy. The downstream ions have a core-ring distribution. The core and ring parts correspond to the DT and R ions, respectively. The ion distributions depend largely on the non-stationary shock structure. The percentage of the reflected ions cyclically varies in time with a period equal to the shock self-reformation cycle, and the number of the R ions increases with the steepness of the shock ramp.     

Influence of the cross-phase modulation effect on the polarization states of waves transmitted through a non-linear Fabry–Pe´rot cavity

An analysis of the influence of the cross-phase modulation effect on the polarization states of waves transmitted through a non-linear Fabry–Pe′rot resonator with a self- focusing and self-defocusing Kerr medium is presented. The case is considered of two plane waves with different wavelengths incident on a non-linear Fabry–Pe′rot cavity. It is shown that the polarization states of the transmitted waves change bistably or multistably and depend on the parameters of incident waves and the resonator. This revised version was published online in November 2006 with corrections to the Cover Date.     

30 keV He~(2+)在不同倾斜角度的聚碳酸酯微孔膜中的传输过程

本文测量了30 keV的He~(2+)入射倾斜角度分别为-0.5~?,-1~?,-1.5~?和-2.5~?的聚碳酸酯纳米微孔膜后,出射粒子角度分布、电荷态分布以及相对穿透率随时间的演化.当微孔膜倾斜角度在-0.5~?,-1~?和-1.5~?时,出射的He~(2+)离子始终保持在入射束流方向,出射的He~0原子出射方向由微孔孔道方向逐渐转移到入射束流方向,在实验过程中观测到明显的电荷交换,这一现象与之前发现的导向效应不同,微孔内部沉积的电荷斑和微孔内表面原子的短程集体散射作用,克服入射离子的横向动量,使入射离子在微孔内表面以上以类似镜面掠射的方式出射,并发生时间演化效应,主要传输机制为电荷斑辅助的表面以上的类似镜面掠射行为.而当倾斜角度在-2.5~?时,出射的He~(2+)离子始终保持在入射束流方向,出射的He~0原子始终保持在微孔孔道方向,沉积的电荷斑很难克服入射离子的横向动量,没有时间演化效应,主要传输机制为微孔内表面以下的多次随机非弹性碰撞过程.这一物理图像使中能离子入射不同倾斜角度的微孔膜物理认识更加深入和完整.     

300和600keV O~(7+)离子与宏观玻璃管的相互作用

实验研究了300和600 ke V的O7+离子与宏观玻璃管内壁的相互作用,利用位置灵敏法拉第筒测量了传输离子的偏转角和传输效率随倾斜角的变化关系,观察到偏转角不等于倾斜角的不完全导向现象。实验结果证实,高能入射离子在玻璃管内壁产生的沉积电势相对于入射离子动能横向分量较小,难以使传输离子沿着玻璃管的轴向出射,从而发生不完全导向现象;并且,入射离子的能量越高,导向效应越不明显。     

180 keV O6+离子与锥形玻璃毛细管相互作用研究

实验研究了强流（几个nA/mm²）180 keV O⁶⁺离子穿越微米尺度锥形玻璃毛细管的聚焦效应.结果表明,毛细管出口处束流密度比入口处束流密度增加了6～7倍,且出射离子保持原有的电荷态及能量.此外我们发现,当毛细管倾斜一定角度时,离子出射方向偏向毛细管管轴方向.基于自组织充电模型对上述实验结果进行了讨论.     

180keV O6+离子与锥形玻璃毛细管相互作用研究

实验研究了强流（几个nA/mm2）180 keV O6+离子穿越微米尺度锥形玻璃毛细管的聚焦效应.结果表明,毛细管出口处束流密度比入口处束流密度增加了6~7倍,且出射离子保持原有的电荷态及能量.此外我们发现,当毛细管倾斜一定角度时,离子出射方向偏向毛细管管轴方向.基于自组织充电模型对上述实验结果进行了讨论.     

低能Cl^-在Al2O3绝缘微孔膜中的输运过程

研究了10 keV Cl^-离子穿越Al2O3绝缘微孔膜的物理过程,发现穿越的Cl^-其分布中心在初束中心即0°附近,Cl^-离子穿透率下降与几何穿透一致,这是典型的直接几何穿越有一定角发散的微孔导致的结果;而出射的Cl0和Cl^+以微孔轴向为中心分布,Cl^+和Cl0穿透率下降慢于几何穿透.模拟计算发现沉积电荷会使出射粒子中Cl^-占主要成分,并使出射Cl^-角分布中心移动到微孔轴向方向而随微孔膜倾角移动;而在不考虑沉积电荷的情况下,计算结果较好地符合了实验结果.通过分析在不同倾角下散射过程对出射粒子的角分布和电荷态分布的影响,发现绝大部分的Cl0是通过一次和两次散射出射的,其中一次散射出射的Cl0占主要成分,从而导致出射的Cl0沿微孔轴向出射而Cl^+主要是经过一次碰撞出射.这导致了随倾角增大,出射的Cl0穿透率下降速度比Cl^+小,Cl0所占比例相对增大较快,从而导致观测到的Cl^+/Cl0的比例下降.本文结果更仔细地描述了低能离子穿越绝缘体微孔的物理机理,印证了之前实验和理论工作的结果,发现在10 keV以上能区的Cl^-离子穿越绝缘微孔膜的过程中,沉积电荷并未起到主要作用,其主要穿透特征是散射过程造成的.     

20 keV质子在聚碳酸酯微孔膜中传输的动态演化过程

测量了20 ke V质子穿过倾斜角为+1?的聚碳酸酯微孔膜后,出射粒子的位置分布、相对穿透率以及电荷纯度随时间的演化.实验发现,能量电荷比E/q≈10~1k V的质子穿过绝缘纳米微孔的物理机理与E/q≈10~0k V和E/q≈10~2k V区域离子有显著不同.对于E/q≈10~1k V的质子穿过绝缘纳米微孔,存在一段相当长的导向建立之前(导向前)的过程,在该时期内出射质子及氢原子的特性和导向建立后的特性有很大差异.在导向前的演化过程中,我们可以观察到出射质子的峰位逐渐向孔轴向附近转移;出射氢原子由束流方向的尖峰以及孔轴向的主峰构成,峰位角保持基本不变且尖峰逐渐消失.这一过程的主要机理为微孔内表面以下的多次随机二体碰撞和近表面镜面反射两种传输方式逐步向电荷斑约束下的"导向效应"过渡的过程.对E/q≈10~1k V区间离子"导向前过程"的完整观测,使得对低能向中能过渡区间离子穿过绝缘微孔膜物理机制和图像有更深入和完整的认识,有助于约10 ke V离子微束的精确控制和应用.     

100-keV质子在聚碳酸酯微孔膜中传输的动态演化过程

本工作测量了100 keV质子穿过倾角为+1°的聚碳酸酯(PC)纳米微孔膜后, 出射粒子电荷态、位置的分布以及相对穿透率随时间的演化. 实验发现, 100 keV(E/q约为100 kV)质子穿过绝缘纳米微孔的物理机理与keV能区的导向过程有根本的不同. 在实验测量初期, 微孔内部无电荷沉积, 质子主要通过在微孔内表面以下的多次随机二体碰撞过程为主要传输机理; 而当充放电平衡后, 微孔内部有明显的电荷斑, 主要传输机理为电荷斑辅助的表面以上(或近表面)的镜面散射行为. 这一物理图像使质子穿过微孔的物理认识更加深入和完整, 也将促进百千电子伏质子微束的应用.     

电介质膜对受抑全内反射结构中古斯-汉欣位移的增强

受抑全反射结构中,反射光束和透射光束的古斯汉欣(Goos-Hanchen)位移同时存在,对称双棱镜结构的受抑全反射古斯汉欣位移通常只有波长量级,在实验中很难测量。计算了在入射角大于棱镜与空气界面的临界角小于棱镜与薄膜界面临界角时,镀有电介质膜的对称双棱镜的受抑全反射过程中入射光束的反射系数和透射系数的复数表达式。利用稳态相位法计算得出透射光束和全反射光束的古斯汉欣位移。结果表明,反射光束和透射光束古斯汉欣位移量相同,与入射角大小、薄膜厚度以及空气层厚度有关。在入射角小于但接近棱镜与薄膜界面的临界角,薄膜厚度和空气层厚度一定时,古斯汉欣位移量共振增强达到波长的数百倍。     

30 keV H+在聚碳酸酯微孔膜中动态输运过程的实验和理论研究

测量了30 keV的H⁺入射倾斜角度为-1°和-2°的聚碳酸酯微孔膜后,出射粒子二维分布图、角度分布、相对穿透率以及出射H⁺电荷态纯度随沉积电荷的演化.实验中30 keV的H⁺在微孔膜中输运特性与之前其他能区离子在微孔膜中输运特性有显著不同,实验中直接观测到出射粒子导向部分和散射部分的动态演化过程,出射的H⁺由沿微孔孔轴方向的导向H⁺和沿入射束流方向的散射H⁺两部分组成,随着微孔内电荷斑的沉积,出射的导向H⁺的占比不断减小,出射散射H⁺占比不断增加;出射H⁰占总出射粒子的比例不断减小,其中心方向逐步向入射束流方向偏转.微孔膜处于不同倾斜角度时,微孔内沉积电荷斑的位置和电场强度是不同的.同时模拟计算了入射H⁺在微孔内部的运动轨迹、微孔内部电荷斑电势和场强分布,实验结果和理论结果得到了很好的验证.对出射离子导向部分和散射部分的动态演化过程的观测和理论解释,使得对中能区离子在微孔膜中输运机制有更好的认识.     

The characteristic spectral lines of target atoms in the impact of ~(40)Ar~(q+) ions on metal surfaces

1 Introduction It has been found that a large number of ions and atoms can be sputtered; and elec-trons and X-ray can be emitted in the impact of slow highly charged ions (SHCI) onmetal surfaces. It has also been shown that a slow highly charged ion can deposit anamount of potential energy ranging from tens to hundreds of keV within a nanometer-sized volume on femtosecond time scale during impinging on a solid surface. Theequivalent power density is about 1014 W/cm2 and bombardment craters …