期刊
NANO FUTURES
卷 5, 期 4, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/2399-1984/ac421d
关键词
MBE; epitaxial growth; doping
资金
- JSPS KAKENHI [20246017, 17H05225, 17H02777, 20121355, 16H05895, 17KK0127]
- Ministry of Education, Culture, Sports, Science and Technology,Japan (MEXT)
- UCL Impact Studentship
- Grants-in-Aid for Scientific Research [17KK0127, 20246017, 17H02777, 17H05225, 16H05895] Funding Source: KAKEN
Conventional doping processes are no longer suitable for creating extreme structures like a delta-doped layer with multiple elements within a silicon crystal. In this study, a (Bi + Er)-delta-doped layer was successfully formed based on surface nanostructures, with subsequent post-annealing processing essential for activating the dopants. Electric transport measurement and photoluminescence study confirmed the activation of both Bi and Er dopants after post-annealing at moderate temperature.
Conventional doping processes are no longer viable for realizing extreme structures, such as a delta-doped layer with multiple elements, such as the heavy Bi, within the silicon crystal. Here, we demonstrate the formation of (Bi + Er)-delta-doped layer based on surface nanostructures, i.e. Bi nanolines, as the dopant source by molecular beam epitaxy. The concentration of both Er and Bi dopants is controlled by adjusting the amount of deposited Er atoms, the growth temperature during Si capping and surfactant techniques. Subsequent post-annealing processing is essential in this doping technique to obtain activated dopants in the delta-doped layer. Electric transport measurement and photoluminescence study revealed that both Bi and Er dopants were activated after post-annealing at moderate temperature.
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