Low-Energy Ne~+ Ion Channeling and Implantation into Cu(100) and Cu_3Au(100)

机译：低能Ne〜+离子通道并注入到Cu（100）和Cu_3Au（100）中

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By computer simulation details have been observed regarding the dynamics of the change of the character of trajectories, the range and energy losses of channeled ions, as well as the angular and energy distributions of ions transmitted through thin crystal versus the composition of single crystal, the impact parameters from the center of the channel and the initial energy. It has been established that for a paraxial part of a channeled beam the inelastic energy losses comprise the main loss of energy. The elastic energy losses of the channeling ions in the case of Cu_3Au(100) crystal are larger than in the case of Cu(100). As Au atoms are heavier than Cu atoms, in the case of Cu_3Au(100) the degree of the dechanneling of particles is greater and the range is smaller in comparison with the similar characteristics for Cu(100).

机译：通过计算机仿真，已观察到有关轨迹特征变化的动力学，通道离子的范围和能量损失以及通过薄晶体传输的离子的角度和能量分布与单晶组成的关系的详细信息。通道中心的冲击参数和初始能量。已经确定的是，对于通道梁的近轴部分，非弹性能量损失是能量的主要损失。在Cu_3Au（100）晶体的情况下，通道离子的弹性能损失比在Cu（100）晶体的情况下大。由于Au原子比Cu原子重，因此与Cu（100）的相似特征相比，在Cu_3Au（100）的情况下，颗粒的去通道化程度更大，范围更小。

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来源
《Symposium on Radiation Effects and Ion-Beam Processing of Materials; 20031201-20031205; Boston,MA; US》|2003年|P.555-559|共5页
会议地点 Boston MA(US);Boston MA(US)
作者
Akbarali M. Rasulov; Abdurauf A. Dzhurakhalov;
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Ferghana Polytechnic Institute, Ferghana Str. 86, 712022 Ferghana, Uzbekistan;

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正文语种 eng
中图分类材料;
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1. Growth, structure, and magnetic properties of epitaxial Ni_xMn_(100-x) single layers and Co/Ni_xMn_(100-x) bilayers on Cu_3Au(100) [J] . W. A. A. Macedo, P. L. Gastelois, M. D. Martins, Physical review . 2010,第13期

机译：Cu_3Au（100）上外延Ni_xMn_（100-x）单层和Co / Ni_xMn_（100-x）双层的生长，结构和磁性
2. Concentration- and thickness-dependent magnetic properties of Ni _xMn_(100-x) in epitaxially grown Ni_xMn_(100-x)/Ni/(Co/)Cu_3Au(001) [J] . Yaqoob Khan M., Wu C.-B., Kreft S.K., Journal of Physics. Condensed Matter . 2013,第38期

机译：外延生长的Ni_xMn_（100-x）/ Ni /（Co /）Cu_3Au（001）中Ni _xMn_（100-x）的浓度和厚度相关的磁性能
3. Studies on low-energy nitrogen plasma immersion ion implantation on austenitic stainless steel and Cu-strengthened HSLA-100 steel [J] . Mukherjee S, Raole PM, Kumar A, Surface & Coatings Technology . 2004,第1a2期

机译：奥氏体不锈钢和铜强化HSLA-100钢的低能氮等离子体浸没离子注入研究
4. Low-Energy Ne~+ Ion Channeling and Implantation into Cu(100) and Cu_3Au(100) [C] . Akbarali M. Rasulov, Abdurauf A. Dzhurakhalov MRS Meeting . 2004

机译：低能量NE〜+离子通道和植入铜（100）和CU_3AU（100）
5. First measurements of the low energy tail (LET) down to 0 eV using Auger Photoelectron Coincidence Spectroscopy (APECS) in Ag (100) and Cu (100). [D] . Shastry, Karthik. 2010

机译：使用Ag（100）和Cu（100）中的俄歇光电子符合光谱（APECS）对低至0 eV的低能尾巴（LET）进行首次测量。
6. A 100-Channel Hermetically Sealed Implantable Device for Chronic Wireless Neurosensing Applications [O] . Ming Yin, David A. Borton, Juan Aceros, -1

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7. Comment on "Magnetic phase transition in Co/Cu/Ni/Cu(100) and Co/Fe/Ni/Cu(100)" [O] . Jensen, P. J., Sorg, C., Scherz, A., 2005

机译：评“Co / Cu / Ni / Cu（100）和Co / Cu中的磁相变” 钴/铁/镍/铜（100）”

Low-Energy Ne~+ Ion Channeling and Implantation into Cu(100) and Cu_3Au(100)

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