Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy

Dreeskornfeld L, Segler R, Haindl G, Wehmeyer O, Rahn S, Majkova E, Kleineberg U, Heinzmann U, Hudek P, Kostic I (2000)
MICROELECTRONIC ENGINEERING 54(3-4): 303-314.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Dreeskornfeld, L; Segler, R; Haindl, G; Wehmeyer, O; Rahn, S; Majkova, E; Kleineberg, U; Heinzmann, UlrichUniBi; Hudek, P; Kostic, I
Abstract / Bemerkung
Reactive Ion Etching (RIE) of Mo/Si multilayers (MLs) with double layer thicknesses of about 10 nm and total layer thicknesses between 80 nm and 300 nm prepared by electron beam deposition onto Si or oxidized Si substrates was investigated in a fluorine based plasma. Patterns with line widths in the range of 200 nm to several microns produced by e-beam- and UV-lithography were transferred into the MLs. For this application it is necessary to stop the etching process just after the ML is totally removed. For end point detection optical emission spectroscopy was used. The plasma was analyzed by optical emission spectroscopy and a significant drop of the atomic flourine concentration at the multilayer/ substrate inter-face was observed. An algorithm was developed to stop the etching process at the end point. AFM and TEM measurements show that the ML is totally removed and an over-etching of less than 6 nm occurs. (C) 2000 Elsevier Science B.V. All nights reserved.
Stichworte
Optical Emission Spectroscopy (OES); Reactive Ion Etching (RIE); end; point detection; multilayer
Erscheinungsjahr
2000
Zeitschriftentitel
MICROELECTRONIC ENGINEERING
Band
54
Ausgabe
3-4
Seite(n)
303-314
ISSN
0167-9317
Page URI
https://pub.uni-bielefeld.de/record/1618235

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Dreeskornfeld L, Segler R, Haindl G, et al. Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy. MICROELECTRONIC ENGINEERING. 2000;54(3-4):303-314.
Dreeskornfeld, L., Segler, R., Haindl, G., Wehmeyer, O., Rahn, S., Majkova, E., Kleineberg, U., et al. (2000). Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy. MICROELECTRONIC ENGINEERING, 54(3-4), 303-314. https://doi.org/10.1016/S0167-9317(99)00449-9
Dreeskornfeld, L, Segler, R, Haindl, G, Wehmeyer, O, Rahn, S, Majkova, E, Kleineberg, U, Heinzmann, Ulrich, Hudek, P, and Kostic, I. 2000. “Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy”. MICROELECTRONIC ENGINEERING 54 (3-4): 303-314.
Dreeskornfeld, L., Segler, R., Haindl, G., Wehmeyer, O., Rahn, S., Majkova, E., Kleineberg, U., Heinzmann, U., Hudek, P., and Kostic, I. (2000). Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy. MICROELECTRONIC ENGINEERING 54, 303-314.
Dreeskornfeld, L., et al., 2000. Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy. MICROELECTRONIC ENGINEERING, 54(3-4), p 303-314.
L. Dreeskornfeld, et al., “Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy”, MICROELECTRONIC ENGINEERING, vol. 54, 2000, pp. 303-314.
Dreeskornfeld, L., Segler, R., Haindl, G., Wehmeyer, O., Rahn, S., Majkova, E., Kleineberg, U., Heinzmann, U., Hudek, P., Kostic, I.: Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy. MICROELECTRONIC ENGINEERING. 54, 303-314 (2000).
Dreeskornfeld, L, Segler, R, Haindl, G, Wehmeyer, O, Rahn, S, Majkova, E, Kleineberg, U, Heinzmann, Ulrich, Hudek, P, and Kostic, I. “Reactive ion etching with end point detection of microstructured Mo/Si multilayers by optical emission spectroscopy”. MICROELECTRONIC ENGINEERING 54.3-4 (2000): 303-314.
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