Title :
Laser spike annealing for n-type Ge junction & Ti silicide formation
Author :
Yun Wang ; Xiaoru Wang ; Shaoyin Chen
Author_Institution :
Ultratech Inc., San Jose, CA, USA
Abstract :
We investigate the use of sub-millisecond laser spike annealing (LSA) for two applications: n-type germanium shallow junction activation and titanium silicide formation. For Ge junction, impact of various process parameters including dwell times, peak annealing and substrate temperatures are evaluated. Arsenic dopant activation level of ~1e20 cm-3 is obtained. It is shown that short dwell time is preferred due to better junction scalability and reduced dopant loss. For Ti silicide, different analytical methods are used to identify the phases at various stages of LSA induced silicidation. Evidence of TiSi2 C40 phase, which typically does not occur in conventional thermal annealing, is observed in LSA annealed samples.
Keywords :
arsenic; elemental semiconductors; germanium; laser beam annealing; semiconductor doping; semiconductor junctions; titanium compounds; Ge:As; LSA induced silicidation; TiSi2; arsenic dopant activation level; dwell times; junction scalability; n-type germanium shallow junction activation; peak annealing; process parameter; reduced dopant loss; submillisecond laser spike annealing; substrate temperature; titanium silicide formation; Annealing; Junctions; Power lasers; Resistance; Silicides; Temperature measurement; X-ray scattering;
Conference_Titel :
Junction Technology (IWJT), 2014 International Workshop on
Conference_Location :
Shanghai
DOI :
10.1109/IWJT.2014.6842025
