Comparison of excessive Balmer /spl alpha/ line broadening of inductively and capacitively coupled RF, microwave, and glow-discharge hydrogen plasmas with certain catalysts

From the width of the 656.3-nm Balmer /spl alpha/ line emitted from inductively and capacitively coupled radio frequency (RF), microwave, and glow-discharge plasmas, it was found that inductively coupled RF helium-hydrogen and argon-hydrogen plasmas showed extraordinary broadening corresponding to a...

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Bibliographic Details
Published inIEEE transactions on plasma science Vol. 31; no. 3; pp. 338 - 355
Main Authors Mills, R.L., Ray, P.C., Nansteel, M., Xuemin Chen, Mayo, R.M., Jiliang He, Dhandapani, B.
Format Journal Article
LanguageEnglish
Published IEEE 01.06.2003
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Summary:From the width of the 656.3-nm Balmer /spl alpha/ line emitted from inductively and capacitively coupled radio frequency (RF), microwave, and glow-discharge plasmas, it was found that inductively coupled RF helium-hydrogen and argon-hydrogen plasmas showed extraordinary broadening corresponding to an average hydrogen atom energy of 250-310 and 180-230 eV, respectively, compared to 30-40 and 50-60 eV, respectively, for the corresponding capacitively coupled plasmas. Microwave helium-hydrogen and argon-hydrogen plasmas showed significant broadening corresponding to an average hydrogen atom energy of 180-210 and 110-130 eV, respectively. The corresponding results from the glow-discharge plasmas were 33-38 and 30-35 eV, respectively, compared to /spl ap/ 4 eV for plasmas of pure hydrogen, neon-hydrogen, and xenon-hydrogen maintained in any of the sources. Similarly, the average electron temperatures T/sub e/ for helium-hydrogen and argon-hydrogen inductively coupled RF and microwave plasmas were high (43 200 /spl plusmn/ 5% K, 18 600 /spl plusmn/ 5% K, 30 500 /spl plusmn/ 5% K, and 13 700 /spl plusmn/ 5% K, respectively); compared to 9300 /spl plusmn/ 5% K, 7300 /spl plusmn/ 5% K, 8000 /spl plusmn/ 5% K, and 6700 /spl plusmn/ 5% K for the corresponding plasmas of xenon-hydrogen and hydrogen alone, respectively. Stark broadening or acceleration of charged species due to high electric fields cannot explain the inductively coupled RF and microwave results since the electron density was low and no high field was present. Rather, a resonant energy transfer mechanism is proposed.
ISSN:0093-3813
1939-9375
DOI:10.1109/TPS.2003.812340