论文信息 - Study of the Role of Cl2, O2, and He in the Chrome Etch Process with Optical Emission Spectroscopy

Study of the Role of Cl2, O2, and He in the Chrome Etch Process with Optical Emission Spectroscopy

Demands on critical dimension specifications increase with the continuous shrinking of design rules. In order to meet sub-0.13μm specifications with precise process control, a better understanding of the etching chemistry and surface reactions need to be achieved. Optical emission spectroscopy (OES) is frequently used in the photomask community as a diagnostic for calling endpoint, but is often underutilized in process development. In-situ measurements, like OES, need to be utilized and correlated to post-etch metrology measurements in order to provide a larger picture of the etch process. In this paper, OES is used to characterize and monitor chrome etch processes on the Etec Systems Tetra photomask etch chamber. Changes in process conditions, such as source power, He percentage, pressure, and Cl2:O2 flow ratios have been captured by time-averaged optical emission traces. The OES data of the plasma, along with SEM pictures of line profiles, are used to gain insight in process optimization for the etching of chrome.

Rex B. Anderson | Guenther Ruhl | Melisa J. Buie | Nicole L. Sandlin

[1] Yi-Chiau Huang,et al. In-situ optical emission spectroscopic examination of chrome etch for photomasks , 2002, Photomask Japan.

[2] Vincent M. Donnelly,et al. Optical Diagnostic Techniques for Low Pressure Plasma Processing , 1990 .

[3] M. V. Malyshev,et al. Diagnostics of chlorine inductively coupled plasmas. Measurement of electron temperatures and electron energy distribution functions , 2000 .

[4] Vincent M. Donnelly,et al. Optical actinometry of Cl2, Cl, Cl+, and Ar+ densities in inductively coupled Cl2–Ar plasmas , 2001 .

[5] H. Nakata,et al. Plasma etching characteristics of chromium film and its novel etching mode , 1980 .

[6] J. Moon,et al. Additive oxygen effects in Cl2 plasma etching of chrome films , 1999 .

[7] G. Tynan,et al. Spatial profiles of neutral, ion, and etch uniformity in a large-area high-density plasma reactor , 2001 .

[8] David B. Graves,et al. The recombination of chlorine atoms at surfaces , 1998 .

[9] A. Lichtenberg,et al. Principles of Plasma Discharges and Materials Processing , 1994 .

[10] M. Lieberman,et al. Photoresist etching in an inductively coupled, traveling wave driven, large area plasma source , 2001 .

[11] E. Quandt,et al. Detection of atomic oxygen: Improvement of actinometry and comparison with laser spectroscopy , 2000 .

[12] Guenther Ruhl,et al. Endpoint solution for photomask chrome loads down to 0.25% , 2002, SPIE Photomask Technology.