Title :
Submicrometer poly-Si CMOS fabrication with low-temperature laser doping
Author :
Tomita, H. ; Negishi, M. ; Sameshima, T. ; Usui, S.
Author_Institution :
Sony Res. Center, Yokohama, Japan
Abstract :
The laser doping process for submicrometer CMOS devices with leakage currents as low as 10/sup -12/ A/ mu m for both n-channel and p-channel devices is discussed. The I-V characteristics are comparable to those of poly-Si devices fabricated using ion implantation and high-temperature annealing processes. The laser-induced melting of predeposited impurity doping (LIMPID) process was used to fabricate submicrometer polycrystalline-Si CMOS devices. This process uses a very low temperature, so no dopant atom can diffuse along the grain boundaries in the solid region. The use of stacked Al/SiO/sub 2/ films as a protection layer made it possible to reduce the leakage current from several tens of picoamperes per micrometer to 1 pA/ mu m.<>
Keywords :
CMOS integrated circuits; elemental semiconductors; integrated circuit technology; laser beam applications; semiconductor doping; silicon; Al-SiO/sub 2/ protection layer; I-V characteristics; LIMPID; laser-induced melting of predeposited impurity doping; leakage currents; low-temperature laser doping; n-channel devices; p-channel devices; polycrystalline Si; polycrystalline-Si CMOS devices; submicrometer CMOS devices; Annealing; Atomic beams; Atomic layer deposition; CMOS process; Doping; Impurities; Ion implantation; Leakage current; Optical device fabrication; Temperature;
Journal_Title :
Electron Device Letters, IEEE
