Title: 利用快速熱退火技術增進金屬誘發側向結晶的速率
Enhancement of MILC Growth Rate Using Rapid Thermal Annealing
Authors: 龔君偉
Jun-Wei Gong
吳耀銓
YewChungSermon Wu
材料科學與工程學系
Keywords: 金屬誘發結晶;快速熱退火;複晶矽;MILC;RTA;polysilicon
Issue Date: 2004
Abstract: 在本研究中,主要的重點就是探討利用快速熱退火進行金屬誘發側向結晶。藉著改變快速熱退火各個不同的參數,如溫度、持溫時間、升溫速率,來探討哪些因素影響複晶矽的成長。接下來,選取適合的參數來製作元件,並與以爐管製程的元件做比較。 我們發現在550℃的溫度下,利用快速熱退火成長複晶矽,比爐管退火在複晶矽成長速率的表現上快上將近十倍。但是在電性上的表現,快速熱退火製程的略差於爐管製程。而在改變不同快速熱退火的參數上,溫度越高成長速率越快,但飽和長度越短;而在同樣溫度同樣退火時間下,週期數越多的,成長速率則越快;而在升溫速率方面,則沒有明顯的影響。
In this study,the major point is that metal-induced lateral crystallization process using Rapid thermal annealing was investigated。We discuss which factors affect the growth of polycrystalline silicon (poly-Si) by different RTA conditions such as temperature、during time and ramping rate。Then we select a suitable condition for device fabrication,and compare to device with furnace annealing process。 We discover that the growth rate of poly-Si by RTA at 550℃ is almost ten times than that by furnace annealing at 550℃。But the electric preformance of RTA process is inferior to that of furnace annealing process slightly。And under different RTA conditions:the higer temperature cause faster growth rate,but shorter saturation length ;under the same temperature and annealing time,the more numbers of cycle cause faster growth rate;And ramping rate do not affect growth rate obviously。
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT009218514
http://hdl.handle.net/11536/74680
Appears in Collections:Thesis


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