J. Borland, S. Qin, P. Oesterlin, K. Huet, W. Johnson, Lauren A. Klein, G. Goodman, A. Wan, S. Novak, T. Murray, R. Matyi, A. Joshi, S. Prussin
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High mobility Ge-channel formation by localized/selective liquid phase epitaxy (LPE) using Ge+B plasma ion implantation and laser melt annealing
Localized Ge and SiGe high mobility channel material is needed for 10nm node and beyond CMOS technology. Thin direct >50% SiGe selective epi followed by oxidation for Ge condensation, 100% Ge selective epi or thermal mixing are methods that require a hard mask and epi interface defects with rough surfaces are always an issue. An alternative approach to epi is using photoresist masking as proposed by Borland et al [1] with Ge-infusion doping (dose controlled deposition), a very high dose implantation technique that leads to amorphous deposition followed by low temperature SPE of the amorphous Ge surface layer but residual interface defects remained.
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