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Kawamoto Naoya

Affiliate Master Yamaguchi University

Crystal Growth Mode of Poly-Si Prepared by ELA : Relationship between the Grian Morphology and Hydrogens

Memoirs of the Faculty of Engineering, Yamaguchi University Volume 53 Issue 1 Page 15-21
published_at 2002-10
A030053000103.pdf
[fulltext] 262 KB
Title
ELA により形成された poly-Si 結晶成長様式 : グレイン形状と水素の関係
Crystal Growth Mode of Poly-Si Prepared by ELA : Relationship between the Grian Morphology and Hydrogens
Creators Kawamoto Naoya
Creators Matsuo Naoto
Source Identifiers
Creator Keywords
excimer laser annealing Sin substrate poly-Si hydogens burst crystal growth mechanism
We investigate the characteristic of the poly-Si film prepared by the excimer laser annealing (ELA) of a-Si deposited using plasma enhanced chemical vapor deposition (PECVD) method on SiO2 / SiN / glass substrate (SiN substrate). Compared with the poly-Si film prepared by ELA of a-Si deposited by low-pressure chemical vapor deposition (LPCVD) on the quartz substrate, the Raman intensity of the poly-Si film on the SiN substrate is larger than that on the quartz substrate. The stress of the poly-Si film on the SiN substrate is smaller than that on the quartz substrate. The average grin size of the poly-Si film on the SiN substrate is approximately 70nm, and the disk-shaped grain, which is observed for the poly-Si film on the quartz substrate, is not observed. The avarage roughness (Ra) of poly-Si surface on the SiN substrate is larger than that on the quartz substrate. These phenomena are due to the difference of the crystal growth mechanims of the poly-Si film between on the SiN substrate and on the quartz substrate. We discuss these mechanisms from a viewpoint of the hydrogens included in the film and the origin of them.
Subjects
工学 ( Other)
Languages jpn
Resource Type departmental bulletin paper
Publishers 山口大学工学部
Date Issued 2002-10
File Version Version of Record
Access Rights open access
Relations
[ISSN]1345-5583
[NCID]AA11422756
[isVersionOf] [URI]http://memoirs.lib-e.yamaguchi-u.ac.jp/
Schools 工学部