Analysis of thermal diffusion effects observed in a capacitively coupled plasma deposition reactor with non-isothermal walls
- Authors
- Kim, Ho Jun
- Issue Date
- May-2021
- Publisher
- PERGAMON-ELSEVIER SCIENCE LTD
- Keywords
- Capacitively coupled plasmas; Fluid simulation; Hydrogenated amorphous silicon; Non-isothermal wall condition; Plasma enhanced chemical vapor deposition; Thermal diffusion
- Citation
- Vacuum, v.187
- Journal Title
- Vacuum
- Volume
- 187
- URI
- https://scholarworks.bwise.kr/gachon/handle/2020.sw.gachon/80820
- DOI
- 10.1016/j.vacuum.2021.110104
- ISSN
- 0042-207X
- Abstract
- In the semiconductor industry, non-isothermal wall conditions are often adopted to optimize process results for plasma enhanced chemical vapor deposition (PECVD). When heavier (or larger) species are mixed with lighter (or smaller) species in the presence of non-isothermal wall conditions, thermal diffusion phenomena are often observed. Thermal diffusion generates a concentration of the heavier (or larger) species in colder regions, while the lighter (or smaller) species are transported towards the hotter regions. Consequently, both averaged values and spatial profiles of film deposition rates can be noticeably changed by thermal diffusion. When uniformity of the deposition rate profile is required to be less than 5%, an accurate numerical model needs to involve complex multi-component transport. In this study selected input parameters, such as the mole fraction of a source gas, gas velocity magnitude, susceptor temperature, and gas pressure are varied to carefully investigate thermal diffusion effects on the spatial density distributions of ions and radicals. As a case study for PECVD, SiH4/He capacitively coupled plasma is selected to deposit a hydrogenated amorphous silicon film. It is found that a sufficient increase of the susceptor temperature is best for obtaining a uniform deposition rate profile in the test bed. © 2021 The Author
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