用于大电流离子注入的射频和直流灯丝离子源光束提取特性研究

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Applied Science and Convergence Technology Pub Date : 2021-05-31 DOI:10.5757/ASCT.2021.30.3.92
Ju-Hong Cha, Sang‐Woo Kim, Ho‐Jun Lee
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引用次数: 1

摘要

在大电流注入中,提高离子可萃取性是提高设备效率和降低工艺成本的决定性因素。根据离子源的特性,制备了直流灯丝离子源和电感耦合等离子体离子源,观察等离子体的萃取程度。用于优化长丝和射频放电光束提取的等离子体参数为600 W, Ar 2 × 10−5 Torr, Ø200 × 250 mm放电空间。在热离子源中,离子密度为5 × 10 9 1/cm 3,电子温度为≥6 eV,玻姆电流密度为≈3.5 A/m 2。在RF离子源中,离子密度、电子温度和玻姆电流密度分别约为5 × 10 10 1/cm 3、≈3 ~ 4 eV和≈25 A/ m2。利用IBSimu软件对等离子体和加速器参数对离子提取过程进行了优化分析。作为离子束质量最重要的参数,光束发射度以椭圆包络线到相空间的形式测量。根据离子源中的等离子体参数观察等离子体半月板形状的变化,并根据电极间隙距离和孔径结构计算提取离子束的发射度。
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A Study on Beam Extraction Characteristics of RF and DC Filament Ion Source for High Current Ion Implanters
In high current implantation, improving the ion extractability is a decisive factor contributing to the equipment efficiency and process cost reduction. A direct current filament ion source and inductively coupled plasma ion source were prepared to observe the degree of plasma extraction according to the ion source characteristics. The plasma parameters used to optimize beam extraction for the filament and RF discharges were 600 W, Ar 2 × 10 −5 Torr, and Ø200 × 250 mm discharge space. In the thermionic ion source, the ion density, electron temperature, and Bohm current density were 5 × 10 9 1/cm 3 , ≥ 6 eV, and ≈ 3.5 A/m 2 , respectively. In the RF ion source, the ion density, electron temperature, and Bohm current density were approximately 5 × 10 10 1/cm 3 , ≈ 3 ∼ 4 eV, and ≈ 25 A/m 2 , respectively. Optimization and analysis of ion extraction according to the plasma and accelerator parameters were calculated using IBSimu. The beam emittance, which is the most important parameter of the ion beam quality, was measured as the beam envelope onto the phase space by an ellipse. A change in the plasma meniscus shape was observed according to the plasma parameters in the ion source, and the emittance of the extracted ion beam was calculated according to the electrode gap distance and aperture structure.
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CiteScore
1.40
自引率
12.50%
发文量
27
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