한국표면공학회지 (42권3호 133-138)
Observation of Plasma Shape by Continuous dc and Pulsed dc
직류 방전과 펄스 직류 방전에 의한 플라즈마 형상 관찰
양원균;주정훈;
Yang, Won-Kyun;Joo, Jung-Hoon;
군산대학교 공과대학 신소재공학과, 플라즈마 소재 응용 센터;
Department of Materials Science and Engineering, Plasma Materials Research Center Kunsan National University;
Effects of bipolar pulse driving frequency between 50 kHz and 250 kHz on the discharge shapes were analyzed by measuring plasma characteristics by OES (Optical Emission Spectroscopy) and Langmuir probe. Plasma characteristics were modeled by a simple electric field analysis and fluid plasma modeling. Discharge shapes by a continuous dc and bipolar pulsed dc were different as a dome-type and a vertical column-type at the cathode. From OES, the intensity of 811.5 nm wavelength, the one of the main peaks of Ar, decreased to about 43% from a continuous dc to 100 kHz. For increasing from 100 kHz to 250 kHz, the intensity of 811.5 nm wavelength also decreased by 46%. The electron density decreased by 74% and the electron temperature increased by 36% at the specific position due to the smaller and denser discharge shape for increasing pulse frequency. Through the numerical analysis, the negative glow shape of a continuous dc were similar to the electric potential distribution by FEM (Finite Element Method). For the bipolar pulsed dc, we found that the electron temperature increased to maximum 10 eV due to the voltage spikes by the fast electron acceleration generated in pre-sheath. This may induce the electrons and ions from plasma to increase the energetic substrate bombardment for the dense thin film growth.
Bipolar pulsed dc;Plasma shape;CCP;Plasma modeling;