Application of Modified Rapid Thermal Annealing to Doped Polycrystalline Si Thin Films Towards Low Temperature Si Transistors

Byung-Soo So; Hyeong-June Kim; Young- Hwan Kim; Jin-Ha Hwang

Korean Journal of Materials Research, Vol.18, No.10, 552-557, October, 2008

DOI10.3740/MRSK.2008.18.10.552 Export Citation

Application of Modified Rapid Thermal Annealing to Doped Polycrystalline Si Thin Films Towards Low Temperature Si Transistors

Byung-Soo So, Hyeong-June Kim, Young- Hwan Kim, and Jin-Ha Hwang^†

Department of Materials Science & Engineering, Hongik University, Seoul 121-791, Korea

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Modified thermal annealing was applied to the activation of the polycrystalline silicon films doped as p-type through implantation of B2H6. The statistical design of experiments was successfully employed to investigate the effect of rapid thermal annealing on activation of polycrystalline Si doped as p-type. In this design, the input variables are furnace temperature, power of halogen lamps, and alternating magnetic field. The degree of ion activation was evaluated as a function of processing variables, using Hall effect measurements and Raman spectroscopy. The main effects were estimated to be furnace temperature and RTA power in increasing conductivity, explained by recrystallization of doped ions and change of an amorphous Si into a crystalline Si lattice. The ion activation using rapid thermal annealing is proven to be a highly efficient process in low temperature polycrystalline Si technology.

Keywords:ion activation;polycrystalline Si;conductivity;Raman spectroscopy;rapid thermal annealing

[References]

He DY, Wang XQ, Chen Q, Li JS, J. Korean Phys. Soc., 46, S88 (2005)
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Kang KH, Lee SJ, Song BC, Bang MS, Nam SE, Kim HJ, J. Korean Phys. Soc., 44(6), 1552 (2004)

[Referenced By]

[1] He DY, Wang XQ, Chen Q, Li JS, J. Korean Phys. Soc., 46, S88 (2005)

[2] Komiya N, Nishikawa R, Okuyama M, Yamada T, Saito Y, Oima S, Yoneda K, Kanno H, Takahashi H, Rajeswaran G, Itoh M, Boroson M, Hatear TK, Proceeding of the 10th International Workshop on Inorganic and Organic Electroluminescence, 347 (2000). (2000)

[3] Sera K, Okumura F, Uchida H, Itoh S, Karelso S, Hota K, IEEE Trans. Electron Device, 36(12), 2868 (1999)

[4] Crowder MA, Garey PG, Smith PM, Sposili RS, Cho HS, Im JS, IEEE Electron Device Lett., 19(8), 306 (1998)

[5] Yamamoto M, Nishitani H, Sakai M, Gotoh M, Taketomi Y, Tautsu T, Nishitani M, Euro Display 99 Proceedings, 53 (1999)

[6] Kang KH, Lee SJ, Song BC, Bang MS, Nam SE, Kim HJ, J. Korean Phys. Soc., 44(6), 1552 (2004)