AI Article Synopsis
- Low resistivity polycrystalline silicon was selectively grown in narrow patterns for DRAM using microwave plasma-enhanced chemical vapor deposition (MW-CVD), achieving a high phosphorus doping concentration.
- The selective growth mechanism involved a deposition/etch cyclic process that ensured a bottom-up approach, promoting uniform doping and excellent fill capacity without defects.
- This method is anticipated to outperform conventional thermal techniques for deep and narrow contact processes, resulting in lower contact resistivity and improved transistor performance.
Article Abstract
Low resistivity polycrystalline Si could be selectively grown in the deep (~200 nm) and narrow patterns (~20 nm) of 20 nm pitch design rule DRAM (Dynamic Random Access Memory) by microwave plasma-enhanced chemical vapor deposition (MW-CVD). We were able to achieve the high phosphorus (CVD gap-fill in a large electrical contact area which does is affected by line pitch size) doping concentration (>2.5 × 10 cm) and, thus, a low resistivity by adjusting source gas (SiH, H, PH) decomposition through MW-CVD with a showerhead controlling the decomposition of source gases by using two different gas injection paths. In this study, a selective growth mechanism was applied by using the deposition/etch cyclic process to achieve the bottom-up process in the L-shaped contact, using H plasma that simultaneously promoted the deposition and the etch processes. Additionally, the cyclic selective growth technique was set up by controlling the SiH flow rate. The bottom-up process resulted in a uniform doping distribution, as well as an excellent filling capacity without seam and center void formation. Thus, low contact resistivity and higher transistor on-current could be achieved at a high and uniform phosphorus (P)-concentration. Compared to the conventional thermal, this method is expected to be a strong candidate for the complicated deep and narrow contact process.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6843425 | PMC |
| http://dx.doi.org/10.3390/mi10100689 | DOI Listing |
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