Title :
Novel RTA technique for large diameter GaAs wafers managing to minimize both dopant diffusion and slip formation
Author :
Sakurada, Takashi ; Kiyama, Makoto ; Nakajima, Shigeru ; Tatsumi, Masami
Author_Institution :
Sumitomo Electr. Ind. Ltd., Hyogo, Japan
Abstract :
Rapid thermal annealing (RTA) is useful for shallow channel device fabrication because of suppression of dopant diffusion. However, short RTA sequence easily causes slip formation due to thermal stress during the process, which is more serious in the case of larger diameter wafers. We investigated at what point slip generated during RTA by monitoring temperature distribution within a wafer and successfully suppress slip formation by introducing a waiting step in the cooling process while maintaining the high cooling rate and the abrupt doping profile
Keywords :
III-V semiconductors; diffusion; doping profiles; gallium arsenide; rapid thermal annealing; semiconductor doping; slip; GaAs; RTA technique; abrupt doping profile; dopant diffusion; high cooling rate; large diameter GaAs wafers; slip formation; temperature distribution; thermal stress; Cooling; Doping profiles; Fabrication; Gallium arsenide; Rapid thermal annealing; Rapid thermal processing; Temperature distribution; Temperature measurement; Temperature sensors; Thermal stresses;
Conference_Titel :
Indium Phosphide and Related Materials, 2001. IPRM. IEEE International Conference On
Conference_Location :
Nara
Print_ISBN :
0-7803-6700-6
DOI :
10.1109/ICIPRM.2001.929149
