Hostname: page-component-848d4c4894-4hhp2 Total loading time: 0 Render date: 2024-05-01T00:35:12.940Z Has data issue: false hasContentIssue false
  • English
  • Français

Defect Reduction Paths in SiC Epitaxy

Published online by Cambridge University Press:  11 June 2014

J. Zhang ,
D.M. Hansen ,
V.M. Torres ,
B. Thomas ,
G. Chung ,
H. Makoto ,
I. Manning ,
J. Quast ,
C. Whiteley  and
E.K. Sanchez
...Show all authors
J. Zhang
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
D.M. Hansen
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
V.M. Torres
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
B. Thomas
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
G. Chung
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
H. Makoto
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
I. Manning
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
J. Quast
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
C. Whiteley
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
E.K. Sanchez
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
S. Mueller
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
M.J. Loboda
Affiliation:
Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686, USA
H. Wang
Affiliation:
Department of Materials Sci. and Engr., Stony Brook University, Stony Brook, New York, 11794, USA
F. Wu
Affiliation:
Department of Materials Sci. and Engr., Stony Brook University, Stony Brook, New York, 11794, USA
M. Dudley
Affiliation:
Department of Materials Sci. and Engr., Stony Brook University, Stony Brook, New York, 11794, USA
Get access

Abstract

This paper discusses formation mechanisms and potential paths to reduce defect density in current SiC epitaxy technology. Comprehensive optimization efforts have resulted in defect density measured by laser light scattering below 0.5 cm-2 for 30 um thick epi wafers. Possible approaches to reduce basal plane dislocations and mitigate interfacial dislocations are discussed. The progress in epitaxy defect reduction has been made on the foundation of the high quality 100mm substrates. The average and median BPD density is 700 cm-2 and 500 cm-2, respectively, and a low TSD density is also achieved simultaneously with both average and median values around 350 cm-2. High quality and low stress 150mm substrates have been obtained with very low TSD density of <150 cm-2.

Keywords

chemical vapor deposition (CVD) (deposition)defectsepitaxy
Type
Articles
Information
MRS Online Proceedings Library (OPL) , Volume 1693: Symposium DD – Silicon Carbide–Materials, Processing and Devices , 2014 , mrss14-1693-dd01-05
Copyright
Copyright © Materials Research Society 2014 

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

Kimoto, T., Miyamoto, N., Matsunami, H., IEEE , Vol. 46, Issue 3 (1999), p. 471,Google Scholar
Lendenmann, H., Dahlquist, F., Johansson, N., Soderholm, R., Nilsson, P.A., Bergman, J.P., and Skytt, P., Materials Science Forum Vols. 353-356 (2001), p. 727 CrossRefGoogle Scholar
Ryu, S.H., Zhang, Q., Fatima, H., Haney, S., Stahlbush, R., Agarwal, A., Materisls Research Society Symposium Proceedings Vol. 1069 (2008), p. D0717 Google Scholar
Mahdik, N.A., Stahlbush, R.E., Caldwell, J.D., O’Loughlin, M., and Burk, A., Materials Science Forum Vols.717-720 (2012), p. 297 CrossRefGoogle Scholar
Zhang, Q., Agarwal, A., Burk, A., O’Loughlin, M., Palmour, J., Stahlbush, R., and Scozzie, C., Materials Science Forum Vols. 645-648 (2010), p. 331 CrossRefGoogle Scholar
Burk, A.A., Tsvetkov, D., Barnhardt, D., O’Loughlin, M.J., Garrett, L., Towner, P., Seaman, J., Deyneka, E., Khlebnikov, Y., and Palmour, J., Materials Science Forum Vols. 717-720, p. 552 Google Scholar
Thomas, B., Hansen, D., Zhang, J., Loboda, M.J., Uchiyama, J., Toth, T.J., Chung, G., Manning, I.C., Quast, J.P., Mueller, S.G., Materials Science Forum, Vols. 778-780 (2014), p. 103 Google Scholar
Hansen, D. M., Loboda, M.J., Drachev, R.V., Sanchez, E.K., Zhang, J., Carlson, E.P., Wan, J., and Chung, G., MRS 2010 Google Scholar
Mahdik, N.A., Stahlbush, R.E., Qadri, A.B., Glembocki, O.J., Alexson, D.A., Hobart, K.D., Caldwell, J.D., Myers-Ward, R.L., Tedesco, J.L., Eddy, C.R. Jr., Gaskill, D.K., Journal of Electronic Materials , Vol. 40, No. 4 (2011), p. 413 CrossRefGoogle Scholar
Ha, S., Mieszkowski, P., Skowronski, M., Rowland, L.B., Journal of Crystal Growth 244 (2002), p. 257 CrossRefGoogle Scholar
Zhang, Z. and Sudarshan, T.S., Applied Physics Letters , Vol. 87, No. 16 (2005)Google Scholar
Zhang, J., Chung, G., Sanchez, E., Loboda, M.J., Sundaresan, S., Singh, R., Materials Science Forum , Vols. 717-720 (2012), p. 137 CrossRefGoogle Scholar
Jacobson, H., Bergman, J.P., Hallin, C., Janzèn, E., Tuomi, T., and Lendenmann, H., Journal of Applied Physics , Vol. 95 (2004), P. 1485 CrossRefGoogle Scholar
Kimoto, IEEE,Google Scholar
Zhang, X., Ha, S., Hanlumnyang, Y., Chou, C.H., Rodriguez, V., Skowronski, M., Sumakeris, J.J., Paisley, M.J., and O’Loughlin, M.J., Journal of Applied Physics , Vol. 101 (2007), p. 053517 CrossRefGoogle Scholar
Sumakeris, J.J., Hull, B.A., O’Loughlin, M.J., Ha, S., Skowronski, M., Palmour, J.W., and Carter, C.H. Jr., Materials Research Symposium Proceedings , Vol. 911 (2006), p. B0306 Google Scholar
Tsuchida, H., Kamata, I., Kojima, K., Momose, K., Odawara, M., Takahashi, T., Ishida, Y., and Matsuzawa, K., MRS , Vol. 1069 (2008), p. D04–03CrossRefGoogle Scholar
Ohno, T., Yamoguchi, H., Kuroda, S., Kojima, K., Suzuki, T., Arai, K., Journal of Crystal Growth , Vol. 271 (2004), p. 1 CrossRefGoogle Scholar
Tanaka, T., Kawabata, N., Mitani, Y., Tomita, N., Tarutani, M., Kuroiwa, T., Toyoda, Y., Imaizumi, M., Sumitani, H., and Yamakawa, S., ICSCRM 2013 abstract Tu-2A-3 Google Scholar
Myers-Ward, R.L., Gaskill, D.K., VanMil, B.L., Stahlbush, R.E., and Eddy, C.R. Jr., US20110045281A1.Google Scholar
Jacobson, H., Bergman, J.P., Hallin, C., Janzèn, E., Tuomi, T., and Lendenmann, H., Journal of Applied Physics , Vol. 95 (2004), P. 1485 CrossRefGoogle Scholar
Sasaki, S., Suda, J., and Kimoto, T.,, Materials Science Forum Vols. 717-720 (2012), p. 481 CrossRefGoogle Scholar
Zhang, X., Nagano, M., and Tsuchida, H., Materials Science Forum , Vols. 679-680 (2011), p. 306 CrossRefGoogle Scholar
Zhang, X., Ha, S., Hanlumnyang, Y., Chou, C.H., Rodriguez, V., Skowronski, M., Sumakeris, J.J., Paisley, M.J., and O’Loughlin, M.J., Journal of Applied Physics , Vol. 101 (2007), p. 053517 CrossRefGoogle Scholar