Transmission of electrons through insulating PET foils: Dependence on charge deposition, tilt angle and incident energy

D. Keerthisinghe; B.S. Dassanayake; S.J. Wickramarachchi; N. Stolterfoht; J.A. Tanis

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Transmission of electrons through insulating PET foils: Dependence on charge deposition, tilt angle and incident energy

机译：电子通过绝缘PET箔的传输：取决于电荷沉积，倾斜角和入射能量

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摘要

Transmission of electrons through insulating polyethylene terephthalate (PET) nanocapillaries was observed as a function of charge deposition, angular and energy dependence. Two samples with capillary diameters 100 and 200 nm and pore densities 5 × 10~8/cm~2 and 5 × 10~7/cm~2, respectively, were studied for incident electron energies of 300, 500 and 800 eV. Transmission and steady state of the electrons were attained after a time delay during which only a few electron counts were observed. The transmission through the capillaries depended on the tilt angle with both elastic and inelastic electrons going through. The guiding ability of electrons was found to increase with the incident energy in contrast to previous measurements in our laboratory for a similar PET foil.

机译：观察到电子通过绝缘的聚对苯二甲酸乙二醇酯（PET）纳米毛细管的传输与电荷沉积，角度和能量相关性的关系。研究了两个毛细管直径分别为100和200 nm，孔密度分别为5×10〜8 / cm〜2和5×10〜7 / cm〜2的样品的300、500和800 eV的入射电子能量。经过一定的时间延迟后，电子的透射率和稳态得以实现，在此期间仅观察到少量电子计数。通过毛细管的传输取决于倾斜角，弹性和非弹性电子都通过。发现电子的引导能力随入射能量的增加而增加，这与我们实验室中类似PET箔片先前的测量结果相反。

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来源
《Nuclear instruments and methods in physics research》 |2016年第1期|67-70|共4页
作者
D. Keerthisinghe; B.S. Dassanayake; S.J. Wickramarachchi; N. Stolterfoht; J.A. Tanis;
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作者单位

Department of Physics, Western Michigan University, Kalamazoo, MI 49008, USA;

Department of Physics, University of Peradeniya, Peradeniya, Sri Lanka;

Department of Physics, Western Michigan University, Kalamazoo, MI 49008, USA;

Helmholtz-Zentrum Berlin fuer Materialien und Energie, D-14109 Berlin, Germany;

Department of Physics, Western Michigan University, Kalamazoo, MI 49008, USA;

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正文语种 eng
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关键词
Electron transmission; Electron guiding; Nanocapillaries; Charge deposition; Elastic and inelastic transmission;

机译：电子传输电子引导;纳米毛细管;电荷沉积;弹性和非弹性传递;

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专利

1. Electron-beam transmission through a micrometer-sized tapered-glass capillary: Dependence on incident energy and angular tilt angle [J] . S. J. Wickramarachchi, T. Ikeda, B. S. Dassanayake, Physical Review, A . 2016,第2aPta1期

机译：通过微米尺寸的锥形玻璃毛细管的电子束传输：依赖入射能量和角度倾斜角度
2. Charge deposition dependence and energy loss of electrons transmitted through insulating PET nanocapillaries [J] . D. Keerthisinghe, B.S. Dassanayake, S.J. Wickramarachchi, Nuclear instruments and methods in physics research . 2013,第ptaA期

机译：电荷沉积依赖性和通过绝缘PET纳米毛细管传输的电子的能量损失
3. Incident energy and charge deposition dependences of electron transmission through a microsized tapered glass capillary [J] . S.J. Wickramarachchi, T. Ikeda, B.S. Dassanayake, Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2016,第sepa1期

机译：电子通过微型锥形玻璃毛细管传输的入射能量和电荷沉积依赖性
4. Influence of the incident angle on energy dependence of a secondary electron emission yield [C] . Bundaleski N., Belhaj M., Gineste T., IEEE International Vacuum Electronics Conference . 2013

机译：入射角对二次电子发射产率的能量依赖性的影响
5. Equilibrium charge state distributions of low-Z ions incident on thin self-supporting foils. [D] . Schmitt, Christopher J. 2010

机译：入射在薄的自支撑箔上的低Z离子的平衡电荷态分布。
6. Correlation between energy deposition and molecular damage from Auger electrons: A case study of ultra-low energy (5–18 eV) electron interactions with DNA [O] . Mohammad Rezaee, Darel J. Hunting, Léon Sanche -1

机译：俄歇电子的能量沉积与分子损伤之间的相关性：超低能量（5–18 eV）电子与DNA相互作用的案例研究
7. Transmission and absorption measurements of high energy electrons with metallic and insulating foils. [O] . Agu, Benson Nwabueze Chukuemeka. 1959

机译：用金属箔和绝缘箔测量高能电子的传输和吸收。
8. ANGULAR DEPENDENCE OF THE CHARACTERISTIC ENERGY LOSS OF ELECTRONS PASSING THROUGH METAL FOILS [R] . Richard A. Ferrell 1955

机译：电子通过金属箔的特征能量损失的角度依赖性

Transmission of electrons through insulating PET foils: Dependence on charge deposition, tilt angle and incident energy

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