Identification of refractory-metal-free C40TiSi2 for low temperature C54TiSi2 formation

被引:14
作者
Li, K
Chen, SY
Shen, ZX
机构
[1] Natl Univ Singapore, Dept Phys, Singapore 119260, Singapore
[2] Syst Silicon Mfg Co Private Ltd, FA Sect, Singapore 519527, Singapore
来源
APPLIED PHYSICS LETTERS | 2001年 / 78卷 / 25期
关键词
D O I
10.1063/1.1378309
中图分类号
O59 [应用物理学];
学科分类号
摘要
A refractory-metal-free C40 TiSi2 phase formed by pulsed-laser annealing is identified experimentally by combined convergent beam electron diffraction (CBED) study and CBED pattern simulation. The simulation shows that the C40 TiSi2 has a hexagonal structure with the space group P6(2)22(180) and lattice parameters a = 0.471 nm and c = 0.653 nm. Upon further furnace annealing or rapid thermal annealing, C54 TiSi2 can be directly achieved from C40 TiSi2 at low temperatures (600-700 degreesC). This observation suggests that pulsed-laser annealing is promising for extension of TiSi2 into the subquarter micron region in semiconductor device fabrication. (C) 2001 American Institute of Physics.
引用
收藏
页码:3989 / 3991
页数:3
相关论文
共 17 条
[1]   Lowering the formation temperature of the C54-TiSi2 phase using a metallic interfacial layer [J].
Cabral, C ;
Clevenger, LA ;
Harper, JME ;
dHeurle, FM ;
Roy, RA ;
Saenger, KL ;
Miles, GL ;
Mann, RW .
JOURNAL OF MATERIALS RESEARCH, 1997, 12 (02) :304-307
[2]   Low temperature formation of C54-TiSi2 using titanium alloys [J].
Cabral, C ;
Clevenger, LA ;
Harper, JME ;
dHeurle, FM ;
Roy, RA ;
Lavoie, C ;
Saenger, KL ;
Miles, GL ;
Mann, RW ;
Nakos, JS .
APPLIED PHYSICS LETTERS, 1997, 71 (24) :3531-3533
[3]   Mechanism of enhanced formation of C54-TiSi2 in high-temperature deposited Ti thin films on preamorphized, (001)Si [J].
Chang, SM ;
Huang, HY ;
Yang, HY ;
Chen, LJ .
APPLIED PHYSICS LETTERS, 1999, 74 (02) :224-226
[4]   Synthesis and characterization of pure C40TiSi2 [J].
Chen, SY ;
Shen, ZX ;
Li, K ;
See, AK ;
Chan, LH .
APPLIED PHYSICS LETTERS, 2000, 77 (26) :4395-4397
[5]   Formation of C54-TiS2 in titanium on nitrogen-ion-implanted (001)Si with a thin interposing Mo layer [J].
Cheng, SL ;
Jou, JJ ;
Chen, LJ ;
Tsui, BY .
JOURNAL OF MATERIALS RESEARCH, 1999, 14 (05) :2061-2069
[6]  
*JCPDS INT CTR DIF, 1998 JCPDS INT CTR D
[7]   Mechanism of low temperature C54 TiSi2 formation bypassing C49 TiSi2:: Effect of Si microstructure and Mo impurities on the Ti-Si reaction path [J].
Kittl, JA ;
Gribelyuk, MA ;
Samavedam, SB .
APPLIED PHYSICS LETTERS, 1998, 73 (07) :900-902
[8]   Effects of Mo-free C40Ti(Si1-xGex)2 precursors and the thickness of an interposed Mo layer on the enhanced formation of C54Ti(Si1-xGex)2 [J].
Luo, JS ;
Huang, JC ;
Lin, WT ;
Chang, CY ;
Shih, PS .
APPLIED PHYSICS LETTERS, 1999, 75 (22) :3482-3484
[9]   Reduction of the C54-TiSi2 phase transformation temperature using refractory metal ion implantation [J].
Mann, RW ;
Miles, GL ;
Knotts, TA ;
Rakowski, DW ;
Clevenger, LA ;
Harper, JME ;
DHeurle, FM ;
Cabral, C .
APPLIED PHYSICS LETTERS, 1995, 67 (25) :3729-3731
[10]   STABILITY OF C49 AND C54 PHASES OF TISI2 UNDER ION-BOMBARDMENT [J].
MOTAKEF, S ;
HARPER, JME ;
DHEURLE, FM ;
GALLO, TA ;
HERBOTS, N .
JOURNAL OF APPLIED PHYSICS, 1991, 70 (05) :2660-2666
12