DocumentCode
2387492
Title
Minimizing Pattern Dependency in Millisecond Annealing
Author
Feng, Lucia M. ; Wang, Yun ; Markle, David A.
Author_Institution
Ultratech Inc., San Jose, CA
fYear
0
fDate
0-0 0
Firstpage
25
Lastpage
30
Abstract
Millisecond annealing is a key enabling technology for creating the ultra-shallow junctions of the 65 nm node and beyond. The very short thermal diffusion distances inherent in millisecond annealing exacerbate larger scale pattern density differences and can result in corresponding differences in annealing temperatures. This paper considers the three different methods of achieving millisecond annealing times and the various ways that pattern effects can be minimized in each case. These include opaque coatings, dummification and careful selection of the wavelength, incidence angle and polarization of the radiation used for annealing. Each method has its own set of advantages and disadvantages and these are enumerated. The article concludes with a short comparison of the results obtained with three commercially available, millisecond annealing systems
Keywords
ion implantation; laser beam annealing; rapid thermal annealing; semiconductor doping; thermal diffusion; transistors; 65 nm node; dopant activation; implant annealing; incidence angle; laser beam annealing; millisecond annealing; opaque coatings; radiation polarization; radiation wavelength; thermal diffusion; transistor source-drain extension; ultrashallow junction; Implants; Lamps; Laser beams; Optical films; Rapid thermal annealing; Reflectivity; Semiconductor laser arrays; Surface resistance; Temperature; Thin film transistors;
fLanguage
English
Publisher
ieee
Conference_Titel
Junction Technology, 2006. IWJT '06. International Workshop on
Conference_Location
Shanghai
Print_ISBN
1-4244-0047-3
Type
conf
DOI
10.1109/IWJT.2006.220853
Filename
1669440
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