Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-25T15:32:30.488Z Has data issue: false hasContentIssue false

Plasma Mode Trench Etching with Direct Hydrocarbon Injection

Published online by Cambridge University Press:  28 February 2011

Steven D. Leeke
Affiliation:
The Center for Integrated Systems, Stanford University, Stanford, CA 94305
David Kuan Yu Liu
Affiliation:
The Center for Integrated Systems, Stanford University, Stanford, CA 94305
James P. McVittie
Affiliation:
The Center for Integrated Systems, Stanford University, Stanford, CA 94305
Get access

Abstract

Planar plasma etching of silicon for fabrication of deep trenches has been studied using the method of factorial design.A highly anisotropic etching profile with a slight positive slope is obtained using SF6, C2C1F5, and CH4 in the low energy plasma etch mode.The anisotropy is attributed to the polymerization of CH4 molecules with the active species in the plasma.The polymer is removed preferentially in the vertical direction by energetic ions from the plasma, leaving the polymer layer on the side wall to inhibit lateral etching of silicon.Good uniformity across the wafer and smooth trench surfaces are obtained with this process.Trench depths of greater than 3μm with less than 0.24μm of undercut are observed.Etch rate measurements were made and found to be greater than 1000 angstroms/minute.Selectivity over the oxide mask is greater than 15:1.

By using factorial design to statistically characterize this process, the effects of interactions between various process parameters are studied.Optimal etching conditions are obtained from the interaction terms for the process parameters.The ability to etch deep trenches with smooth surfaces, low damage, low linewidth degredation, and high selectivity make this process useful for many applications in VLSI devices.

Type
Articles
Copyright
Copyright © Materials Research Society 1986

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

[1] Bollinger, D., Lida, S., and Matsumoto, O..Solid State Technology 27, 6 (June 1984).Google Scholar
[2] George Box, E.P., Hunter, William G., and Hunter, J.Stuart.Statistics For Experimenters, (John Wiley & Sons, New York, 1978), pp.306328.Google Scholar
[3] Chaam, K.M. and Chiang, S.-Y..IEEE Electron Device Letters EDL–4 9 (September 1983).Google Scholar
[4] Chiu, K.Y., Moll, J.L. cham, K.M., Lin, J., Lage, C., Angelos, S., and Tillman, R.L..IEEE Trans.on Electron Devices ED–30, 11 (November 1983).CrossRefGoogle Scholar
[5] Ephrath, L.M. and Bennett, R.S. Journal of the Electrochemical Society 129, 8 (August 1982).Google Scholar
[6] Gonzalez, C. and McVittie, J.P..IEEE Electron Device Letters EDL–6, 5 (May 1985).Google Scholar
[7] Heslop, C.J..Proceedings of the Fifth Symposium on Plasma Processing, (The Electrochemical Society, Inc., New Orleans, LA, October, 1984), pp.134141.Google Scholar
[8] Hui, J.C., Chiu, T.Y., Wong, S.W.S., and Oldham, W.G..IEEE Trans.on Electron Devices ED–29, 4 (April 1982).Google Scholar
[9] Ishiijima, T. and Terada, K..Symposium on VLSI - Proceedings, (IEEE, 1984), pp.28–29.Google Scholar
[10] Kalter, H. and van de Ven, E.P.G.T..Philips tech.Rev. 38, 7/8 (1978 1979).Google Scholar
[11] MeVittie, J.P. and Gonzalez, C..Proceedings of the Fifth Symposium on Plasma Processing, (The Electrochemical Society, Inc., New Orleans, LA, October, 1984), pp.552567.Google Scholar
[12] McVittie, J.P. and Uin, T.A..To be published.Google Scholar
[13] Rung, R.D., Monoee, H., and Nagakubo, Y..IEDM Proceedings, (IEEE, 1982), pp.237–240.Google Scholar
[14] Minegishi, K., Nakajima, S., Miura, K., Harada, K., and Shibata, T.. IEDM Proceedings, (IEEE, 1983), pp.319–321.Google Scholar
[15] Morie, T., Minegishi, K., and Nakajima, S..IEEE Electron Device Letters EDL–4, 11 (November 1983).Google Scholar
[16] Nakajima, Shigeru, Minegishi, Kazushige, Miura, Kenji, Morie, Takashi, Kimizuka, Masakatsu, and Mano, Tsuneo.IEEE Journal of Solid-State Circuits SC–20, 1 (February 1985).Google Scholar
[17] Oldham, W.G..IEDM Proceedings, (IEEE, 1982), pp.216–219.Google Scholar
[18] Poulsen, R.G..J.Vac.Sci.Technol. 14, 1 (Jan/Feb.1977).CrossRefGoogle Scholar
[19] Satoh, S., Yoneda, M., Nagatomno, M., Fujishima, K., Yarsazaki, T., and Nakata, H.. Symposium on VLSI - Proceedings, (IEEE, 1984), pp.18–19.Google Scholar
[20] Schwartz, G.C. and Schaible, P.M..J.Vac.Sci.Technol. 16, 2 (Mar/Apr.1979).Google Scholar
[21] Shichijo, H., Banerjee, Sanjay K., Malhi, Satwinder D.S., Pollack, G.P., Richardson, William F., Bordelon, D.M., Womack, Richard H., Elahy, Mosiafa, Wang, C.-P., Gallia, James, Davis, H.E., Shah, A.H., and Chatterrje, P.K..IEEE Electron Device Letters EDL–7, 2 (February 1986).Google Scholar
[22] Spencer, J.E., Barna, G.G., and Carter, D.E..Proceedings of the Fifth Symposium on Plasma Processing, (The Electrochemicat Society, Inc., New Orleans, LA, October, 1984), pp.413423.Google Scholar
[23] Sunami, H., Kuse, T., Hashimnoto, N. Itoh, K., Toyabe, T., and Asai, S.. IEDM Proceedings, (IEEE, 1983), pp.806–808.Google Scholar
[24] Clarance Teng, W., Pollack, Gordon, and Hunter, W.R..IEEE Journal of Solid-State Circuits SC–20, 1 (February 1985).Google Scholar
[25] Tsai, Hong-Hsiang, Yu, Chih-Lin, and Wu, Ching-Yuan.IEEE Electron Device Letters EDL–7, 2 (February 1986).Google Scholar
[26] Tsai, Hong-Hsiang, Chen, Shiao-Mo, and Wu, Ching-Yuan.IEEE Electron Device Letters EDL–7 2 (February 1986).Google Scholar
[27] Wolf, E.D., Adesida, I., and Chins, J.D..J.Vac.Sci.Technol. 2, 2 (Apr.-June 1984).CrossRefGoogle Scholar
[28] Yamabe, Kikuo and Taniguchi, Kenji.IEEE Journal of Solid-State Circuits SC–20, 1 (February 1985).Google Scholar
[29] Yamaguchi, T., Morimoto, S., Kawaunoto, G.H., Park, H.K., and Eiden, G.C.. IE DM Proceedings, (IEEE, 1983), pp.522–525.Google Scholar
[30] Yamaguchi, Tadanori, Morirnoto, Seiichi, Park, Hee Kyun, and Eiden, Greg C..IEEE Journal of Solid-State Circuits SC–20, 1 (February 1985).Google Scholar