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Measurement of Ar Temperature of Hollow Cathode Discharge Plasma
이준회,신재소,이숭직,이민소,Lee, Jun-Hoi,Shin, Jae-Soo,Lee, Sung-Jik,Lee, Min-Soo The Korean Institute of Electrical and Electronic 2005 전기전자재료학회논문지 Vol.18 No.4
The plasma temperature of Ar gas in hollow cathode discharge were measured. This is done by measuring the line profile of the 1s/sub 8/-2p/sub 8/ transition in Ar, using a single-frequency diode laser. Low power diode lasers have been successfully used for investigation of the line profiles of Ar transitions in hollow cathode discharges. It turns out that the plasma temperature of Ar is 640∼783 K in the discharge current range at 7∼10 mA.
Hollow cathode discharge에서 자발적 진동의 광검류 신호 측정
이준회 한국진공학회 2003 Applied Science and Convergence Technology Vol.12 No.1
아르곤 방전 기체의 음 글로우 영역에서 자발적 직동의 광검류 신호를 관찰하였다. 자발적 진동의 광검규 신호는 3 mA 보다 낮은 땅선 전류에서 나타난다. 준안정 준위의 인자 밀도 변화와 1s-2p 전이의 방출 세기를 동시에 측정한 결과, 자발적 진동 신호를 발생시키는 메커니즘 중의 한 가지는 느린 전자의 충돌에 의한 준안정 준위 원자의 단계적 이온화이다. The spontaneous oscillations in the optogalvanic signals are observed in negative glow region of Ar hollow cathode discharge. The spontaneous oscillations in the optogalvanic signals are observed at low discharge currents less than about 3 mA. Based on the simultaneous measurements of both the density variation of metastable atoms and emission intensities of the 1s-2p transitions, one of the possible mechanisms for the spontaneous oscillation is considered to be related to the stepwise ionization of the metastable atoms due to collisions with slow electrons in the discharge.
Hollow cathode discharge tube에서의 광검류 신호 측정
이준회,정기주 한국진공학회 2002 Applied Science and Convergence Technology Vol.11 No.2
Hollow cathode discharge(HCD)에서 알곤 기체를 완충 기체로 사용하여 전류 변화에 따른 광검류 신호를 측정하였다. 광검류 신호는 방전의 전기 전도도의 증가 또는 감소에 의해 나타나며 전기 전도도의 변화는 전자 충돌에 의한 이온화율의 변화에 의해 일어난다. 낮은 방전 전류에서 광검류 신호는 가장 낮은 준안정 준위 원자의 밀도 변화와 밀접한 관계가 있다는 결론을 얻었다. The optogalvanic signals were measured using hollow cathode discharge tube with argon as buffer gas at change of discharge currents. A change of ionization rate due to electron collision causes an increase or decrease of the electric conductivity, This change in electric conductivity generates the optogalvanic signal. We conclude that optogalvanic signal has close relation with change of the lowest metastable atoms density at low current.
속이 빈 원통형음극 방전의 전압-전류 곡선에서 음 저항 영역 관찰
이준회,이성직,Lee, Jun-Hoi,Lee, Sung-Jik 한국전기전자재료학회 2005 전기전자재료학회논문지 Vol.18 No.9
We measured the optogalvanic signal and discharge voltage-current(V-I) curve under the two different discharge conditions with different buffer gases, Ar, and Ne. When the Gd was used as a cathode material at low discharge current less than 10mA, a significant change was observed in the current-voltage curve. Time resolved optogalvanic signal measurement were measured by the diode laser of which wavelengths correspond to metastable transition line of these gases (Ar, Ne). From these measurements, we found that the characteristics of the V-I curve strongly depend on the Penning ionization process.
Changes in the Optogalvanic Signal Amplitude in a Hollow Cathode Discharge
이준회,구경완,이기식 한국전기전자재료학회 2009 Transactions on Electrical and Electronic Material Vol.10 No.6
The spatial distribution of the optogalvanic (OG) signal in argon at the 801.489 nm (1s5-2p8 transition at the metastable level in Paschen notation) was investigated in the radial direction of a hollow cathode discharge tube. The results of this experiment showed that the OG signal amplitude decreases in accordance with the following two conditions; first, the level of discharge current and second, the distance from the cathode dark space. These results can be quantified by analyzing the electron density profile along the discharge regions, which can directly influence the collisional ionization induced by electron impact.