A study on the self-consistent step-wise global model: chamber geometry effect

Jae Wang Ban; Hee Jung Yeom; Deuk-Chul Kwon; Jung Hyung Kim; Shin Jae You; Hyo-Chang Lee

A study on the self-consistent step-wise global model: chamber geometry effect

POSTER

Abstract

The global model based on the fluid approximation is a one of the efficient methods to understand the plasma parameters, such as electron temperature, excited densities, and plasma density, etc. In this study, we investigated the chamber geometry effect on the plasma parameters in argon inductively coupled plasmas using a self-consistent step-wise global model. External factors such as power, pressure, and chamber dimensions have been shown to significantly influence changes in plasma parameters and discharge characteristics.

Presenters

Jae Wang Ban

Korea Research Institute of Standard and Science

Authors

Jae Wang Ban

Korea Research Institute of Standard and Science
Hee Jung Yeom

Korea Research Institute of Standards and Science (KRISS), Korea Research Institute of Standard and Science
Deuk-Chul Kwon

Korea institute of Fusion Energy (KFE), Korea Institute of Fusion Energy
Jung Hyung Kim

Korea Research Institute of Standards and Science, Korea Research Institute of Standard and Science (KRISS), Korea Research Institute of Standards and Science (KRISS), Korea Research Institute of Standard and Science
Shin Jae You

Chungnam Natl Univ, Department of Physics, Chungnam National University
Hyo-Chang Lee

Korea Research Institute of Standards and Science, Korea Research Institute of Standards and Science (KRISS), Korea Research Inst of Standards and Sci