| [1] | Cao J,Hao X L,Wang X H,et al. ICP process principle and fault analysis[J]. Equipment for Electronic Products Manufacturing,2020,49(1):50−54 (曹健,郝晓亮,王秀海. ICP工艺原理与故障分析[J]. 电子工业专用设备,2020,49(1):50−54(in chinese) Cao J, Hao X L, Wang X H,et al.ICP process principle and fault analysis[J]. Equipment for Electronic Products Manufacturing,2020,49(01):50-54.( |
| [2] | Lei Y. The principle of inductively coupled plasma etching machine and fault analysis[J]. Equipment for Electronic Products Manufacturing,2017,46(5):59−62 (雷宇. 感应耦合等离子体刻蚀机的原理与故障分析[J]. 电子工业专用设备,2017,46(5):59−62(in chinese) doi: 10.3969/j.issn.1004-4507.2017.05.014(inchinese)) Lei Y.The principle of inductively coupled plasma etching machine and fault analysis[J]. Equipment for Electronic Products Manufacturing,2017,46(05):59-62 ( doi: 10.3969/j.issn.1004-4507.2017.05.014(inchinese)) |
| [3] | Zhu H,He X,Chen B Y,et al. Simulations and experimental diagnostic of capacitively coupled RF discharge plasma[J]. Transactions of China Electrotechnical Society,2019,34(16):3504−3511 (朱寒,何湘,陈秉岩,等. 容性耦合射频放电等离子体的仿真模拟与实验诊断研究[J]. 电工技术学报,2019,34(16):3504−3511(in chinese) Zhu H,He X, Chen B Y,et al. Simulations and experimental diagnostic of capacitively coupled RF discharge plasma[J].Transactions of China Electrotechnical Society,2019,34(16):3504-3511 ( |
| [4] | Wang L,Wen D Q,Tian C B,et al. Electron heating dynamics and plasma parameters control in capacitively coupled plasma[J]. Acta Physica Sinica,2021,70(9):86−104 (王丽,温德奇,田崇彪,等. 容性耦合等离子体中电子加热过程及放电参数控制[J]. 物理学报,2021,70(9):86−104(in chinese) Wang L,Wen D Q,Tian C B,et al. Electron heating dynamics and plasma parameters control in capacitively coupled plasma[J]. Acta Physica Sinica, 2021, 70(09):86-104 ( |
| [5] | Yang W,Liu X P,Xia H X,et al. Simulation of discharge characteristics of capacitively coupled plasma[J]. Chinese Journal of Vacuum Science and Technology,2015,35(6):639−645 (杨旺,刘学平,夏焕雄,等. 容性耦合等离子体腔室放电特性仿真研究[J]. 真空科学与技术学报,2015,35(6):639−645(in chinese) Yang W,Liu X P,Xia H X,et al. Simulation of discharge characteristics of capacitively coupled plasma[J]. Chinese Journal of Vacuum Science and Technology,2015,35(06):639-645( |
| [6] | Zhang G L,Hua Y,Hao Z Y,et al. Experimental investigation of plasma parameters in 13.56MHz/2 MHz cylindrical inductively coupled plasma[J]. Acta Physica Sinica,2019,68(10):186−195 (张改玲,滑跃,郝泽宇,等. 13.56 MHz/2 MHz柱状感性耦合等离子体参数的对比研究[J]. 物理学报,2019,68(10):186−195(in chinese) doi: 10.7498/aps.68.20190071 Zhang G L,Hua Y,Hao Z Y,et al. Experimental investigation of plasma parameters in 13.56MHz/2 MHz cylindrical inductively coupled plasma[J]. Acta Physica Sinica,2019,68(10):186-195 ( doi: 10.7498/aps.68.20190071 |
| [7] | Zhang J,Wang B,Wang H J,et al. Langmuir double probe diagnostic analysis of RF inductively coupled plasma[J]. Vacuum,2016,53(3):56−61 (张昀,王波,王荷军. 射频感应耦合等离子体朗缪双探针诊断分析[J]. 真空,2016,53(3):56−61(in chinese) Zhang J,Wang B,Wang H J,et al. Langmuir double probe diagnostic analysis of RF inductively coupled plasma[J]. Vacuum,2016,53(03):56-61 ( |
| [8] | Zhu H,He X,Wang C W,et al. Modeling and diagnosis of RF capacitively coupled plasma:an experimental study[J]. Chinese Journal of Vacuum Science and Technology,2019,39(9):745−751 (朱寒,何湘,王春旺,等. 基于均匀离子密度的容性耦合射频放电等离子体的实验诊断研究[J]. 真空科学与技术学报,2019,39(9):745−751(in chinese) Zhu H,He X,Wang C W,et al. Modeling and diagnosis of RF capacitively coupled plasma:an experimental study[J]. Chinese Journal of Vacuum Science and Technology,2019,39(09):745-751 ( |
| [9] | Lin M,Xu H J,et al. Study on spatial distribution of inductive coupled plasma closed plasma with discharge parameter variation[J]. Transactions of China Electrotechnical Society,2022,37(5):1294−1304 (林茂,徐浩军,魏小龙,等. 放电参数变化对电感耦合等离子闭式等离子体空间分布特性研究[J]. 电工技术学报,2022,37(5):1294−1304(in chinese) Lin M,Xu H J,et al. Study on spatial distribution of inductive coupled plasma closed plasma with discharge parameter variation[J] . Transactions of China Electrotechnical Society[9],2022,37(05):1294-1304 ( |
| [10] | Zhang J W,Fan B,Li Z W,et al. Numerical simulation of flow field and therma field with variable struction in reactive ion etching cavit[J]. Laser Technology,2020,44(1):136−142 (张景文,范斌,李志炜,等. 变结构反应离子刻蚀腔室流场热场的数值仿真[J]. 激光技术,2020,44(1):136−142(in chinese) doi: 10.7510/jgjs.issn.1001-3806.2020.01.024(inchinese)) Zhang J W,Fan B,Li Z W,et al. Numerical simulation of flow field and therma field with variable struction in reactive ion etching cavit[J]. Laser Technology,2020,44(01):136-142 ( doi: 10.7510/jgjs.issn.1001-3806.2020.01.024(inchinese)) |
| [11] | Wang C W,Cheng J,Lu Y J,et al. Effect of showerhead hole structure on flow-field in large sized chemical vapor deposition reactor[J]. Chinese Journal of Vacuum Science and Technology,2015,35(12):1500−1506 (王春财,程嘉,路益嘉,等. 喷淋孔结构流体动力学特性研究[J]. 真空科学与技术学报,2015,35(12):1500−1506(in chinese) Wang C W,Cheng J,Lu Y J,et al. Effect of showerhead hole structure on flow-field in large sized chemical vapor deposition reactor[J]. Chinese Journal of Vacuum Science and Technology[11],2015,35(12):1500-1506 ( |
| [12] | 夏焕雄. 薄膜沉积反应腔室多场建模及轮廓调控方法研究[D]. 北京: 清华大学, 2015 Xia H X. Study on multi-fields modeling and profile regulation for thin-film deposition[D]. Beijing: Tsinghua University, 2015 |
| [13] | Gu X W,Liu B,Xu X M,et al. The simulation of argon discharge in hollow fiber based on COMSOL Mutiphysics[J]. Software Guide,2020,19(6):155−159 (顾小卫,刘彬,许雪梅,等. 基于COMSOL Mutiphysics的空芯光纤中氩气放电模拟仿真[J]. 软件导刊,2020,19(6):155−159(in chinese) Gu X W,Liu B,Xu X M,et al. The simulation of argon discharge in hollow fiber based on COMSOL Mutiphysics[J]. Software Guide,2020,19(06):155-159 ( |
| [14] | Peng J X,He X,Chen B Y,et al. Diagnostic study and simulation of capacitive coupled RF plasma[J]. High Power Laser and Particle Beams,2019,31(3):12−19 (庞佳鑫,何湘,陈秉岩,等. 容性耦合射频氩等离子体放电诊断研究及仿真模拟[J]. 强激光与粒子束,2019,31(3):12−19(in chinese) Peng J X,He X,Chen B Y,et al. Diagnostic study and simulation of capacitive coupled RF plasma[J]. High Power Laser and Particle Beams,2019,31(03):12-19 ( |
| [15] | Li X,Liu J M,Chen S,et al. Drocess optimization of inductively coup ed plasma etching for large aspect ratio silicon nanopilars[J]. High Power Laser and Particle Beams,2017,29(7):77−81 (李欣,刘建朋,陈烁,等. 大高宽比纳米硅立柱的感应耦合等离子体刻蚀工艺优化[J]. 强激光与粒子束,2017,29(7):77−81(in chinese) doi: 10.11884/HPLPB201729.170028 Li X,Liu J M,Chen S,et al. Drocess optimization of inductively coup ed plasma etching for large aspect ratio silicon nanopilars[J]. High Power Laser and Particle Beams,2017,29(07):77-81 ( doi: 10.11884/HPLPB201729.170028 |
| [16] | Niu Y,Bao W M,Li X P,et al. Numerical simulation and experimental study of high-power thermal equilibrium inductively coupled plasma[J]. Acta Physica Sinica,2021,70(9):288−298 (牛越,包为民,李小平,等. 大功率热平衡感应耦合等离子体数值模拟及实验研究[J]. 物理学报,2021,70(9):288−298(in chinese) Niu Y,Bao W M,Li X P,et al. Numerical simulation and experimental study of high-power thermal equilibrium inductively coupled plasma[J]. Acta Physica Sinica[16],2021,70(09):288-298 ( |
| [17] | Wang Y T,Zhang B L,Li Y W,et al. Modeling and characterization of low-pressure capacitive coupled RF discharge properties[J]. Chinese Journal of Vacuum Science and Technology,2016,36(7):773−778 (王宇天,张百灵,李益文,等. 基于均匀模型的低气压电容耦合射频放电特性研究[J]. 真空科学与技术学报,2016,36(7):773−778(in chinese) Wang Y T,Zhang B L,Li Y W,et al. Modeling and characterization of low-pressure capacitive coupled RF discharge properties[J]. Chinese Journal of Vacuum Science and Technology,2016,36(07):773-778 ( |
| [18] | Zhu X Y,Chen H Q,Zeng H,et al. Energy conversion and flow characteristics of argon inductively coupled plasma heater[J]. Physics of Gases,2022,7(1):63−69 (朱兴营,陈海群,曾徽,等. Ar介质感应耦合等离子加热器能量转化与流动特性[J]. 气体物理,2022,7(1):63−69(in chinese) Zhu X Y,Chen H Q,Zeng H,et al. Energy conversion and flow characteristics of argon inductively coupled plasma heater[J]. Physics of Gases,2022,7(01):63-69 ( |
| [19] | Shen X,Zhou J X,Wang T,et al. Riser size optimization based on IPOPT algorithm[J]. Special Casting & Nonferrous Alloys,2016,36(7):703−705 (沈旭,周建新,王瞳,等. 基于IPOPT算法的冒口尺寸优化[J]. 特种铸造及有色合金,2016,36(7):703−705(in chinese) Shen X,Zhou J X,Wang T,et al. Riser size optimization based on IPOPT algorithm[J]. Special Casting & Nonferrous Alloys,2016,36(07):703-705 ( |
| [20] | Xu Q. Simulation and experimental verification of plasma etching and deposition[D]. Beijing: Tsinghua University, 2018 许晴. 等离子体刻蚀与沉积仿真研究以及实验验证[D]. 北京: 清华大学, 2018 |