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磁芯增强电感耦合等离子体源的放电特性三维仿真研究

罗启迪¹
¹电子科技大学，成都，四川，中国

电感耦合等离子体是一种将外部电源提供的能量经电感线圈以电磁场的形式耦合传递给等离子体以维持等离子体放电的技术。本文在原有电感耦合等离子体源的基础结构上，通过在放电腔室外放置若干个闭合铁氧体磁芯 ... 扩展阅读

低污染环境下COMSOL 的绝缘子表面颗粒放电机理研究

李梦飞¹, 宋佳瑛¹, 赵靓丹¹, 陈润楠²
¹山西大学
²北京交通大学

绝缘子是高压直流输电系统中的关键组件，对电力安全输送具有至关重要的作用。为保障电力系统安全稳定运行、防止绝缘子劣化和闪络，本研究针对高湿度低盐环境及高灰密低盐密低污染环境下绝缘子表面颗粒的异常放电现象，通过COMSOL ... 扩展阅读

Electromagnetic Analyses for Indian Tokamaks SST-1 and ADITYA

AMARDAS ALLI¹
¹Institute for Plasma Research, Bhat, Gandhinagar, INDIA

In this poster, finite element based electromagnetic analysis work carried out for the two Indian tokamaks ... 扩展阅读

辅助脉冲电势调控大气压等离子体射流参数的放电动力学

卢陈梓¹, 方骏林², 徐少锋², 徐金洲², 刘芷端², 黄高山¹, 梅永丰¹, 郭颖², 石建军³
¹复旦大学智能机器人与先进制造创新学院，智慧纳米机器人与纳米系统国际研究院，上海 200438
²东华大学物理学院，上海 201620
³全省极端环境功能材料重点实验室，复旦大学义乌研究院，浙江义乌 322000

本研究基于COMSOL Multiphysics多物理场仿真平台，利用等离子体模块构建了等尺寸二维自洽流体模型，结合实验深入探究了辅助脉冲电压（APV）对大气压等离子体射流（APPJ）中电离波传播动力学特性的调控机理 ... 扩展阅读

Design of Microwave Cavity for Non-Thermal Plasma Generation

N. Manivannan[1], W. Balachandran[1]
[1]Brunel University, Uxbridge, UK

Design of Microwave Resonance Cavity (MRC) to generate non-thermal plasma to treat NOx and SOx from marine ... 扩展阅读

Argon Plasma Simulations for Educational Purposes at Fontys University of Applied Physics

H. van Halewijn [1],
[1] Fontys University of Applied Physics, The Netherlands

At the Fontys University of Applied Physics (The Netherlands) a plasma etcher has been acquired for ... 扩展阅读

Plasma Scaling Leads the Transition from 2D to True 3D Models

J. Brcka [1],
[1] Tokyo Electron U.S. Holdings, Inc., Austin, TX, USA

Introduction: In inductively coupled plasma (ICP) systems the inductive antenna is coupled to the excited ... 扩展阅读

Simulations of Hydrogen Cross Field Plasma Switch

M. Zhang
China Electronics Technology Group Corporation, China

With this presentation, some content has been discussed from several parts as follows: 1. Plasma switches are ... 扩展阅读

The Application of Low Temperature Plasma in COMSOL Multiphysics

Cheng-Che (Jerry) Hsu[1]
[1]Department of Chemical Engineering, National Taiwan University, Taipei, Taiwan

Multiphysics simulation was used in this work to model inductively coupled plasmas (ICPs). Developing a model ... 扩展阅读

Numerical Simulations of Ion Cyclotron Range of Frequency (ICRF) Wave Fields in a Linear Plasma Device

M. Usoltceva [1], K. Crombé [4], E. Faudot [3], S. Heuraux [3], R. D’Inca [2], J. Jacquot [2], J-M. Noterdaeme [5], R. Ochoukov [2]
[1] Department of Applied Physics, Ghent University, Belgium; Max-Planck-Institut für Plasmaphysik, Garching, Germany; Université de Lorraine, Nancy, France
[2] Max-Planck-Institut für Plasmaphysik, Garching, Germany
[3] Université de Lorraine, Nancy, France
[4] Department of Applied Physics, Ghent University, Ghent, Belgium; LPP-ERM-KMS, TEC partner, Brussels, Belgium
[5] Department of Applied Physics, Ghent University, Belgium; Max-Planck-Institut für Plasmaphysik, Garching, Germany

Fusion devices (tokamaks, stellarators) require hundreds of millions degree Celsius temperature to reach the ... 扩展阅读

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