The Gaseous Electronics Conference radio‐frequency reference cell: A defined parallel‐plate radio‐frequency system for experimental and theoretical studies of plasma‐processing discharges

Autor: Mark J. Kushner, M. E. Riley, R. J. Van Brunt, J. B. Gerardo, G. Selwyn, Michael E. Elta, P. A. Miller, P. Bletzinger, D. B. Graves, James R. Whetstone, J. R. Torczynski, M. P. Splichal, Mark A. Sobolewski, A. Garscadden, J. T. P. Pender, R. A. Gottscho, J R. Roberts, James K. Olthoff, G. A. Hebner, Jeffery W. Butterbaugh, R. Horwath, K. E. Greenberg, P. J. Hargis, T. R. Turner, Mary L. Brake, M. L. Passow, John E. Heidenreich, J. L. Mock, H. M. Anderson, M. Dalvie, A. Lujan, J. T. Verdeyen, Herbert H. Sawin
Rok vydání: 1994
Předmět:
Zdroj: Review of Scientific Instruments. 65:140-154
ISSN: 1089-7623
0034-6748
DOI: 10.1063/1.1144770
Popis: A “reference cell” for generating radio-frequency (rf) glow discharges in gases at a frequency of 13.56 MHz is described. The reference cell provides an experimental platform for comparing plasma measurements carried out in a common reactor geometry by different experimental groups, thereby enhancing the transfer of knowledge and insight gained in rf discharge studies. The results of performing ostensibly identical measurements on six of these cells in five different laboratories are analyzed and discussed. Measurements were made of plasma voltage and current characteristics for discharges in pure argon at specified values of applied voltages, gas pressures, and gas flow rates. Data are presented on relevant electrical quantities derived from Fourier analysis of the voltage and current wave forms. Amplitudes, phase shifts, self-bias voltages, and power dissipation were measured. Each of the cells was characterized in terms of its measured internal reactive components. Comparing results from different cells provides an indication of the degree of precision needed to define the electrical configuration and operating parameters in order to achieve identical performance at various laboratories. The results show, for example, that the external circuit, including the reactive components of the rf power source, can significantly influence the discharge. Results obtained in reference cells with identical rf power sources demonstrate that considerable progress has been made in developing a phenomenological understanding of the conditions needed to obtain reproducible discharge conditions in independent reference cells.
Databáze: OpenAIRE