DocumentCode
1708803
Title
Diagnosis of large volume pulse modulated Ar-H/sub 2/ plasmas
Author
Paul, K.C. ; Tanaka, Yuichi ; Sakuta
Author_Institution
Dept. of Electr. & Comput. Eng., Kanazawa Univ., Japan
fYear
1999
Firstpage
128
Abstract
Summary form only given. Atmospheric pressure plasma in pre-mixed Ar/H/sub 2/ (Ar: 84% molar concentration) flow was generated experimentally at pulse-modulated approach. The plasma torch has a special kind of feature; the length of coil region is extremely large, 158 mm. Ratio of the coil length to coil diameter is about 3:2, which is usually opposite in the ordinary torch. This huge coil length should have caused high plasma region and thus, should be more suitable for materials processing. Pulse modulation of plasma helps to understand the changes of plasma responses with time, and thus, this technique is likely to be helpful to control the plasma energy and species concentration in time domain for better application of radio-frequency (RF) inductively coupled plasma (ICP). The numerical model (Mostaghimi et al., 1998), which used 2-dimensional field variations and was for optically thin and local thermodynamic equilibrium (LTE) considerations, revealed many characteristic properties of plasma for sudden change in active power of plasma. The model was found effective to predict different response times of plasma. Experimentally generated pulse-modulated plasma (Sakuta et al., 1999) reported on-time and pressure effects upon the atomic argon line intensity at 751 nm wavelength. Both works were for same torch configuration. Our present work is to reveal spectroscopically measured results of the new ICP torch with large coil length. In addition, the ICP code of Mostaghimi et al. was changed for current pulsation and used in predicting ICP responses for the same operating conditions of experiment.
Keywords
argon; gas mixtures; hydrogen neutral molecules; plasma diagnostics; plasma flow; plasma pressure; plasma torches; 0.45 MHz; 158 mm; 2-dimensional field variations; 25.6 kW; 30 kW; 751 nm; 760 torr; 85 percent; Ar-H/sub 2/; RF inductively coupled plasma; atmospheric pressure plasma; atomic Ar line intensity; coil diameter; coil length; coil region; current pulsation; high plasma region; large volume pulse modulated Ar-H/sub 2/ plasmas; local thermodynamic equilibrium; materials processing; operating conditions; optically thin system; plasma energy; plasma responses; plasma torch; pre-mixed Ar/H/sub 2/ flow; pressure effects; pulse-modulated approach; pulse-modulated plasma; response times; species concentration; time domain; Argon; Atmospheric-pressure plasmas; Coils; Plasma applications; Plasma diagnostics; Plasma materials processing; Plasma measurements; Plasma properties; Plasma waves; Pulse modulation;
fLanguage
English
Publisher
ieee
Conference_Titel
Plasma Science, 1999. ICOPS '99. IEEE Conference Record - Abstracts. 1999 IEEE International Conference on
Conference_Location
Monterey, CA, USA
ISSN
0730-9244
Print_ISBN
0-7803-5224-6
Type
conf
DOI
10.1109/PLASMA.1999.829351
Filename
829351
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