Title :
Novel species implantation using Applied Materials 9500×RTM and ×R LEAPTM implanters
Author :
Banks, Peter ; Dobson, Matthew ; Krimbacher, Bernhard ; Allen, Andrew ; Murre, Adrian
Author_Institution :
Implant Div., Appl. Mater., Horsham, UK
Abstract :
An increasing range of implanted species are being used to engineer carrier doping profiles. Applications include pre-amorphisation and layer mixing (group IV elements), shallow junctions and steep retrograde profiles (high mass group III and V elements), and control of dopant diffusion through co-implantation (transient enhanced diffusion, gate oxide penetration). We present data on the implantation of Si, Ge, In, Al, Sb and N in Applied Materials implanters, including beam currents, system operation and pre-cursor handling. The paper will also include process data derived from indium implants, using InCl3, as a source feed. Single and multiply charged beams have been used and test wafers Implanted. Thermawave, sheet resistance and SIMS data (before and after RTA) will be presented and discussed
Keywords :
diffusion; doping profiles; impurity distribution; ion implantation; rapid thermal annealing; secondary ion mass spectra; semiconductor doping; Al; Applied Materials ×R LEAP implanter; Applied Materials 9500×R implanter; Ge; In; N; RTA; SIMS; Sb; Si; beam currents; carrier doping profiles; coimplantation; dopant diffusion control; gate oxide penetration; novel species implantation; rapid thermal annealing; shallow junctions; steep retrograde profiles; transient enhanced diffusion; Aluminum; Boron; Feeds; Germanium; Implants; Indium; Sheet materials; Silicon; Temperature control; Testing;
Conference_Titel :
Ion Implantation Technology Proceedings, 1998 International Conference on
Conference_Location :
Kyoto
Print_ISBN :
0-7803-4538-X
DOI :
10.1109/IIT.1999.812127
