Title :
Diffusion-less ultra-shallow p+/n junction formation in Si using low-temperature solid phase epitaxy and non-melt laser annealing
Author :
Kaneko, R. ; Hara, S. ; Fukaya, T. ; Matsumoto, S. ; Suzuki, T. ; Fuse, G. ; Kudo, T. ; Sakuragi, S.
Author_Institution :
Keio Univ., Yokohama, Japan
Abstract :
Formation of ultra-shallow p+/n junction has been performed with the combination of low-temperature solid phase epitaxy and non-melt laser annealing. The former is aimed for improving crystallinity of junction region and the latter for activating implanted B ions. After pre-amorphization implantation of Ge, B ion implantation was performed at energy of 0.2 keV with a dose of 1.2 times 1015/cm2. With adequate conditions, the junction depth around 8 nm with sheet resistance of 920 Omega/square is successfully formed in non-melting state. B dopant profile is kept almost with the as-implanted profile. In addition, the junction leakage current at reverse bias decreases dramatically with low-temperature solid phase epitaxy due to the reduction of residual defects.
Keywords :
annealing; boron; doping profiles; elemental semiconductors; germanium; ion implantation; leakage currents; p-n junctions; semiconductor doping; silicon; solid phase epitaxial growth; Si:B; Si:Ge; crystallinity; diffusion-less ultrashallow p+-n junction formation; dopant profile; electron volt energy 0.2 keV; junction leakage current; low-temperature solid phase epitaxy; nonmelt laser annealing; preamorphization implantation; residual defects; reverse bias; Annealing; Crystallization; Epitaxial growth; Ion implantation; Leakage current; Solid lasers; Ultra-shallow junction; low-temperature annealing; non-melt laser annealing;
Conference_Titel :
Junction Technology, 2009. IWJT 2009. International Workshop on
Conference_Location :
Kyoto
Print_ISBN :
978-1-4244-3319-3
Electronic_ISBN :
978-1-4244-3320-9
DOI :
10.1109/IWJT.2009.5166233
