Title :
Implant and annealing process integration issues to reduce device variability for ≪10nm p+ & n+ ultra-shallow junctions
Author :
Borland, John O.
Author_Institution :
J.O.B. Technol., Aiea, HI
Abstract :
Both p+ and n+ ultra-shallow junctions (USJ) <10 nm deep have been realized by using <200 eV equivalent boron energy (<890 eV BF2 or <4 keV B18H22) or <1 keV equivalent arsenic energy (<500 eV P or <1.7 keV Sb) implants in combination with diffusion- less high temperature msec annealing and diffusion-less low temperature spike annealing thereby also reducing device micro-variation. Non-contact optical metrology techniques such as therma-probe (TW) and junction photo-voltage (RsL) were used to detect and monitor both implant and annealing equipment micro-uniformity and unique equipment signatures as well as junction "quality" (dopant activation, residual implant damage and junction leakage current).
Keywords :
annealing; arsenic; boron; ion implantation; leakage currents; semiconductor doping; semiconductor junctions; annealing process; arsenic energy implants; boron energy implants; device variability; diffusion-less spike annealing; dopant activation; implant process; junction leakage current; junction photo-voltage; noncontact optical metrology techniques; residual implant damage; therma-probe; ultra-shallow junctions; Amorphous materials; Annealing; Boron; Contamination; Degradation; Diodes; Implants; Leakage current; Manufacturing; Temperature;
Conference_Titel :
Junction Technology, 2008. IWJT '08. Extended Abstracts - 2008 8th International workshop on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-1737-7
Electronic_ISBN :
978-1-4244-1738-4
DOI :
10.1109/IWJT.2008.4540020
