• Title/Summary/Keyword: glow discharge

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RF Glow Discharge Characteristics of Argon at Low Gas Pressure (저기압하의 아르곤 가스의 RF 글로우 방전특성)

  • Kwak, D.J.;Kim, D.H.;Park, C.H.
    • Proceedings of the KIEE Conference
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    • 1995.07c
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    • pp.1382-1384
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    • 1995
  • In order to study the structure of RF glow discharge driven at 13.56MHz in argon, the discharge voltage, current and phase shift between them will be measured over a wide range of discharge parameters(gas pressure between 1mTorr and 50mTorr with discharge power between 20mW and 200W). In this paper, the dc glow discharge characteristics and plasma parameters of both FTS and CPMS systems are studied experimentally. It is found that for CPMS system discharge is stablized under wider ranges of magnetic field and pressure than for FTS system. The plasma density and electron temperature of the plasma for these two systems are in the range of $10^{10}{\sim}7{\times}10^{11}[cm^{-3}]$ and $3.5{\sim}6.5$[eV], respectively.

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A Study on Minimum Ignition Energy by Controlled Discharge Energy (방전에너지 제어에 의한 최소점화에너지의 고찰)

  • Choi, Sang-Won;Ohsawa, Atsushi
    • Journal of the Korean Society of Safety
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    • v.22 no.1 s.79
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    • pp.36-39
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    • 2007
  • It is important to know Minimum Ignition Energy(MIE) of flammable materials for ignition hazard of chemical processes etc.. Currently a capacitor discharge is used mainly to measure the MIE. Then, it is impossible to control actively discharge energies and discharge time because the MIE measurement uses a high voltage capacitor and fixed capacitor. However, the control of discharge energy and discharge time will be convenient if self-sustain discharge is used. In this paper, we measured the MIE by self-sustain discharge of a pulse shape to propose the new measuring method of the MIE. AS a result, ignition energies are increased gradually as discharge duration time gets longer, and discharge current grows larger. Also, an arc discharge and a glow discharge occurred during the experimental period, and the ignition by glow discharges happened when discharge duration time was $90{\mu}s$, discharge current was 8A and 1A Especially, the MIE occurred the 0.05mm and 0.08mm of the gap distance between discharge electrode in the same discharge duration time.

The Study on Characteristics of High Frequency Glow Discharge in Organic Vapor (유기 가스중 고주파 글로우가전 특성에 관한 연구)

  • 이덕출;김은배;박상현;박종대
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.34 no.9
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    • pp.355-360
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    • 1985
  • In this paper, the discharge phenomena of high frequency glow discharge in organic vapor are basically investigted to establish the growth mechanism and preparation technique for organic thin film. According to the increasing of discharge frequency, the discharge firing voltage(Vs) of organic vapor decreases. The dependence of discharge voltage(Vd) on gas pressure is generally in accord with Paschen's Law and Vd decreases as gas flow rate become larger, but increases as dischange current density become higher. And the values of Vd in organic vapor are generally higher than those of inorganic gas.

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A Study on the Glow Discharge Characteristics of Facing Target Plasma Process (대향 음극형 플라즈마 프로세스의 글로우 방전특성에 관한 연구)

  • Park, Chung-Hoo;Cho, Jung-Soo;Kim, Kwang-Hwa;Sung, Youl-Mool
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.43 no.3
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    • pp.478-484
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    • 1994
  • Facing target dc sputtering system developed by Hoshi et al. has simple configuration and high deposition rate under moderate substrate temperature in the range of pressure 5x10S0-4T - 1x10S0-2T torr. In this system, magnetic field should be applied perpendicular to the target surface in order to confine high energy secondary electrons between two targets. Because of this magnetic field, the glow discharge characteristics are very different from dc planar diode system showing some unstable discharge region. In this paper, the glow discharge characteristics of this system have been studied under the condition of Ti targets with Ar-NS12T(10%) as working gas. It is found that this system has stable discharge region under the discharge current density of 15-30(mA/cmS02T). The plasma density and electron temperature are in the range of 10S010Y - 10S011T(CMS0-3T) and 2.5-5(eV), respectively.

Characterization and Emission/Absorption Study of a Grimm-type Glow discharge source in the application of high frequency Glow Discharge (고주파 글로우 방전을 이용한 GRIMM형 방전원의 특성 및 방출/흡광분석법 연구)

  • Suh, Jung-Gee;Woo, Jin-Chun
    • Analytical Science and Technology
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    • v.7 no.2
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    • pp.155-164
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    • 1994
  • A conventional Grimm-type glow discharge source was constructed and applied to radio-frequency(13.56MHz) discharge for metal and ceramic analysis. We investigated the emission spectrum for aluminium and aluminium oxide and the influence of discharge operating paramaters including argon pressure, rf-power and DC-bias voltages at the sample-side electrode. Scanning Electron Microscope(SEM) also was used to investigate the effect of rf-sputtering on the microstructure formation of the aluminium oxide. Linear analytical calibration curves were constructed for Manganese and zinc element in samples of low alloy steel(BAS 401-405) and brass(NIST 1108-1117).

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The Fundamental Studies and Development of the Modified See - Through Hollow Cathode Glow Discharge Cell for Atomic Emission Spectrochemical Analysis (원자 방출 분광 분석을 위한 개선된 관통형 속빈 음극관 글로우 방전 셀 개발 및 기초 연구)

  • Lee, Sung-Hun;Cho, Won-Bo;Jeong, Jong-Pil;Choi, Woo-Chang;Borden, Stuart;Kim, Kyu-Whan;Lee, Change-Su;Lee, Sang-Chun
    • Analytical Science and Technology
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    • v.15 no.6
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    • pp.502-508
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    • 2002
  • See-through hollow cathode glow discharge cell has been developed for the trace analysis of metal ions. The systems consists of new glow discharge cell improved the cooling system. In the case of previous type of hollow cathode glow discharge cell, it had been utilized for the trace analysis of metal ions but it had a problem that the plasma becomes unstable by air-cooled device. In this study, the modified hollow cathode glow discharge cell has been developed in order to minimize the problem associated with the air-cooled device. thus the stability of the plasma with water-cooling device has been improved and also the higher plasma temperature has been measured. The fundamental characteristics of modified systems have been investigated. And the discharge parameters, such as discharge pressure, material, and diameter of cathode, have been studied to find optimum discharge conditions.

Generation and Application of Atmospheric Pressure Glow Plasma in Micro Channel Reactor (마이크로 채널 반응기 내 상압 글로우 플라즈마 생성 및 응용)

  • Lee, Dae-Hoon;Park, Hyoun-Hyang;Lee, Jae-Ok;Lee, Seung-S.;Song, Young-Hoon
    • Proceedings of the KSME Conference
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    • 2008.11a
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    • pp.1869-1873
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    • 2008
  • In this work, to make it possible to generate glow discharge in atmospheric pressure condition with relatively high and wide electric field, micro channel reactor is proposed. Si DRIE and Cr deposition by Ebeam evaporation is used to make channel and bottom electrode layer. Upper electrode is made from ITO glass to visualize discharge within micro channel. Fabricated reactor is verified by generating uniform glow plasma with N2 / He gases each as working fluid. The range of gas electric field to generate glow plasma is from about 200 V/cm and upper limit is not observed in tested condition of up to 150 kV/cm. This data shows that micro channel plasma reactor is more versatile. Indirect estimation of electron temperature in this reactor can be inferred that the electron temperature within glow discharge in micro reactor lies $0{\sim}2eV$. This research demonstrates that the reactor is appropriate in application that needs to maintain low temperature condition during chemical process.

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Analytical Application of Glow Discharge Atomic Absorption Spectroscopy (GD-AAS) Using Three Types of Jet Configurations Under Power Mode

  • Hwang, Jun Ho;Lee, Ki Beom;Kim, Min Su;Lee, Seong Ro;Kim, Hasuck;Kim, Hyo Jin;Lee, Gae Ho
    • Analytical Science and Technology
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    • v.8 no.4
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    • pp.443-448
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    • 1995
  • Three anode configurations of six-jet, cone-jet and cylindrical-jet are tested for their analytical performance under power mode operation. The effect of pressure, power and gas flow rate on atomic absorption signals have been studied. The increase of atomic absorption signal of sample element is observed at a fixed pressure in all configurations as the gas flow rate increase up to 300-600 seem, and as the power dissipated in the glow discharge cell increase. The lower the pressure is in the glow discharge cell at a fixed discharge power and argon flow rate, the greater the absorbance of sample element is. The optimum conditions are taken from these data and a calibration curve of Cu in low-alloy steel sample is obtained. In this calibration curve, six-jet configuration shows the best analytical results varies as the sample element.

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Observation of Discharge Mode Transient from Townsend to Glow at Breakdown of Helium Atmospheric Pressure Dielectric Barrier Discharge (헬륨 대기압 유전체 격벽 방전기의 타운젠트-글로우 방전 모드 전이 연구)

  • Bae, Byeongjun;Kim, Nam-Kyun;Yoon, Sung-Young;Shin, Jun-Seop;Kim, Gon-Ho
    • Journal of the Semiconductor & Display Technology
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    • v.15 no.2
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    • pp.26-31
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    • 2016
  • The Townsend to glow discharge mode transition was investigated in the dielectric barrier discharge (DBD) helium plasma source which was powered by 20 kHz / $4.5 kV_{rms}$ high voltage at atmospheric pressure. The spatial profile of the electric field strength at each modes was measured by using the intensity ratio method of two helium emission lines (667.8 nm ($3^1D{\rightarrow}2^1P$) and 728.1 nm ($3^1S{\rightarrow}2^1P$)) and the Stark effect. ICCD images were analyzed with consideration for the electric field property. The Townsend discharge (TD) mode at the initial stage of breakdown has the light emission region located in the vicinity of the anode. The electric field of the light emitting region is close to the applied field in the system. Immediately, the light emitting region moves to the cathode and the discharge transits to the glow discharge (GD) mode. This mode transition can be understood with the ionization wave propagation. The electric field of the emitting region of GD near cathode is higher than that of TD near anode because of the cathode fall formation. This observation may apply to designing a DBD process system and to analysis of the process treatment results.