High-Pressure Plasma Source development through time-resolved diagnostics, PIC and global simulations
- Title
- High-Pressure Plasma Source development through time-resolved diagnostics, PIC and global simulations
- Authors
- YUN, GUNSU; JEONG, SEOK YONG; LEE, MIN UK; NAM, WOOJIN; LEE, SEUNG TAEK; LEE, JUHO; LEE, JI MO; YOO, JAEMIN; LEE, JAE KOO
- Date Issued
- 2019-10-30
- Publisher
- APS Division of Atomic, Molecular, and Optical Physics
- Abstract
- High-pressure plasmas are an interesting state of matter where transport phenomena occur
among multiple species (electrons, ions, neutrals, and cluster ions).
Development of efficient high-pressure plasma source requires understanding of the energy transport process from external power source to electrons as well as internal transport processes among different species. In particular, the electron confinement and the energy transport from excited heavy species are critical for sustainment of the plasma state.
Motivated by experimental findings of higher densities excited species in microwave driven plasmas, our particle-in-cell (PIC) simulations on micro-sized
(0.1{1 mm) high-pressure gas discharge between planar electrodes driven by microwave (∼ 1 GHz) shows that the electron confinement is substantially enhanced above a critical frequency.
Supported by time-resolved measurements, PIC and global simulations suggest that the generations of energetic electrons and reactive species are enhanced by pulsed microwave operation. A general rule of thumb design principles for the optimization of high pressure plasma sources has been deduced from the perspective of external power coupling and internal energy transport.
Plasma discharges in supercritical fluid (SCF) are also introduced as a platform for the study of high density and strongly coupled plasmas.
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/102730
- Article Type
- Conference
- Citation
- The 72nd Annual Gaseous Electronics Conference, 2019-10-30
- Files in This Item:
- There are no files associated with this item.
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.