J. Nulman et al., “Electrical Characteristics of Thin Gate Implanted MOS Channels Grown by Rapid Thermal Processing”, IEEE, pp. 376-379, 1985. |
Atsuki Ono et al., “Boron enhanced diffusion due to high energy ion-implantation and its suppression by using RTA process”, Mat. Res. Soc. Symp. Proc., vol. 354, pp. 319-324, 1995. |
T. Uchida et al., “Dopant Redistribution During Gate Oxidation Including Transient Enhanced Diffusion in Oxidizing Ambient”, IEDM, pp. 795-798, 1996. |
K. Suzuki et al., “Analytical Models for Transient Diffusion and Activation of Ion-Implanted Boron During Rapid Thermal Annealing Considering Ramp-Up Period”, IEDM, pp. 799-802, 1996. |
J. A. Mandelman, “Anomalous Narrow Channel Effect in Trench-Isolated Buried-Channel P-MOSFET's”, IEEE Electron Device Letters, vol. 15, No. 12, pp. 496-498, 1994. |
G. G. Shahidi et al., “Indium Channel Implant for Improved Short-Channel Behavior of Submicrometer NMOSFET's”, IEEE Electron Device Letters, vol. 14, No.8, pp. 409-411, 1993. |
International Search Report for PCT/JP97/02184 dated Oct. 14, 1997. |
European Search Report dated Aug. 23, 2000 for EP 97 92 7452. |
S. Saito et al., “Evaluation and control of defects, formed by keV-MeV implantation”, Nuclear Instruments and Methods in Physics Research B 120 (1966), pp. 37-42. |
M. H. Juang et al., “Suppression of anomalous diffusion of ion-implanted boron in silicon by laser processing”, Journal of Applied Physics, Apr. 1, 1992, pp. 3628-3630. |
L. Yonghong et al., “HVEM observation of defects in rapid thermal annealed implanted silicon”, Proceedings of The International Conference on Materials and Process Characterization for VLSI, 1988, pp. 17-20. |