Title :
Plasma Doping optimizing knock-on effect
Author :
Tonari, Kazuhiko ; Suzuki, Kenji ; Suu, Koukou
Author_Institution :
Inst. of Semicond. & Electron. Technol., ULVAC, Inc., Susono, Japan
fDate :
June 26 2014-July 4 2014
Abstract :
Many studies have been done to apply potential of Plasma Doping to manufacturing semiconductor devices. But some development problems about mass production are still left unsolved. One of the problems is that it is more difficult for Plasma Doping to control dosage. To clear this problem we investigated a dominant mechanism of mixing dopant atoms (boron) in silicon atoms, using inductively coupled plasma, radio frequency bias and B2H6 gas. And it is shown that main implantation mechanism of this plasma doping is the collision between BxHy* and biased Ar+: “knock-on phenomenon”. We presented new doping procedure “2STEP Process”, where BxHy* deposition coating and knocking-on the film by Ar+ accelerated with RF bias were completely separated. By using “2STEP Process”, it is shown that dosage can be controlled by deposition thickness and depth profile can be controlled by bias voltage.
Keywords :
boron; coating techniques; elemental semiconductors; ion implantation; mixing; plasma materials processing; semiconductor doping; silicon; 2STEP Process; Si:B; bias voltage; coating; deposition thickness; depth profile; dopant atoms; implantation mechanism; inductively coupled plasma; knock-on effect; mass production; mixing mechanism; plasma doping; radiofrequency bias; semiconductor devices; Atomic layer deposition; Boron; Coils; Doping; Plasmas; Radio frequency; Resistance; B2H6; boron; doping; ion implantation; plasma;
Conference_Titel :
Ion Implantation Technology (IIT), 2014 20th International Conference on
Conference_Location :
Portland, OR
DOI :
10.1109/IIT.2014.6940025
