Investigation of Discharge Phenomena in Microscale Capillary Plasma Electrode Discharges
Capillary plasma electrode discharge (CPED), which we have used to obtain high electron density nonequilibrium plasma, is a novel concept to suppress the glow-to-arc transition by stabilizing the cathode fall region of the discharge. The characteristic properties of CPED configuration have been inve...
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| Published in | IEEE transactions on plasma science Vol. 39; no. 6; pp. 1496 - 1499 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.06.2011
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Abstract | Capillary plasma electrode discharge (CPED), which we have used to obtain high electron density nonequilibrium plasma, is a novel concept to suppress the glow-to-arc transition by stabilizing the cathode fall region of the discharge. The characteristic properties of CPED configuration have been investigated and compared to the dielectric barrier discharge (DBD) structure. Breakdown voltages and - characteristics of the DBD and the CPED structures have been studied for various gas pressure of helium. |
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| AbstractList | Capillary plasma electrode discharge (CPED), which we have used to obtain high electron density nonequilibrium plasma, is a novel concept to suppress the glow-to-arc transition by stabilizing the cathode fall region of the discharge. The characteristic properties of CPED configuration have been investigated and compared to the dielectric barrier discharge (DBD) structure. Breakdown voltages and I - V characteristics of the DBD and the CPED structures have been studied for various gas pressure of helium. Capillary plasma electrode discharge (CPED), which we have used to obtain high electron density nonequilibrium plasma, is a novel concept to suppress the glow-to-arc transition by stabilizing the cathode fall region of the discharge. The characteristic properties of CPED configuration have been investigated and compared to the dielectric barrier discharge (DBD) structure. Breakdown voltages and - characteristics of the DBD and the CPED structures have been studied for various gas pressure of helium. Capillary plasma electrode discharge (CPED), which we have used to obtain high electron density nonequilibrium plasma, is a novel concept to suppress the glow-to-arc transition by stabilizing the cathode fall region of the discharge. The characteristic properties of CPED configuration have been investigated and compared to the dielectric barrier discharge (DBD) structure. Breakdown voltages and -- characteristics of the DBD and the CPED structures have been studied for various gas pressure of helium. [PUBLICATION ABSTRACT] |
| Author | Tae-Seung Cho Becker, Kurt H Soo-Ho Park Kunhardt, Erich E |
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| SubjectTerms | Breakdown Capillarity Capillary discharge capillary plasma electrode discharge (CPED) Dielectric barrier discharge dielectric barrier discharge (DBD) Dielectrics Discharge Discharges Electric currents Electric potential Electrodes Electron density Helium Indium tin oxide Physics Plasma Plasma electrodes Plasmas Voltage |
| Title | Investigation of Discharge Phenomena in Microscale Capillary Plasma Electrode Discharges |
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