Doppler-broadened line shapes of atomic hydrogen in a parallel-plate radio frequency discharge |
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Authors: | Anthony L. Cappelli Richard A. Gottscho Terry A. Miller |
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Affiliation: | (1) AT&Bell Laboratories, Murray Hill, 07974, New Jersey;(2) Present address: 600 U Street N.W., 20001 Washington, D.C.;(3) Present address: Chemistry Department, Ohio State University, 140 W. 18th Ave., 43210 Columbus, Ohio |
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Abstract: | Doppler-shifted atomic hydrogen emission (Balmer ) is observed from a low-frequency rf discharge through molecular hydrogen by collecting the light through a hole in one of the electrodes. Doppler shifts as large as 0.7 nm, corresponding to an energy of 540 eV or 85% of the peak applied voltage, are observed when ions are accelerated by the sheath electric field. The mechanisms for hot atom production are discussed in terms of both gas-phase and surface ion-impact phenomena. Hot atoms are produced via gas-phase ion-atom and ion-molecule collisions, as a result of simultaneous neutralization and reflection of ions at the electrode surface, and/or by sputtering of adsorbed hydrogen. As much as 30% of the atomic hydrogen emission is substantially Doppler shifted, indicating that most of the atomic emission in the sheaths is actually produced by ion impact and not by electron impact. |
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Keywords: | rf discharge diagnostics Doppler shift hydrogen |
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