Experimental results on silicon annealing by a long-pulse, high-power XeCl laser system

被引:3
|
作者
Murra, D [1 ]
Bollanti, S [1 ]
Bonfigli, F [1 ]
Della Sala, D [1 ]
Di Lazzaro, P [1 ]
Letardi, T [1 ]
机构
[1] ENEA, CR Frascati, INN, FIS,LAC, I-00044 Frascati, Rome, Italy
来源
ALT'99 INTERNATIONAL CONFERENCE ON ADVANCED LASER TECHNOLOGIES | 2000年 / 4070卷
关键词
laser annealing; silicon annealing; excimer laser; beam homogeneizer;
D O I
10.1117/12.378178
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
The XeCl laser facility Hercules, delivering a maximum energy of 8 J in 160 ns FWHM, has been used to irradiate amorphous silicon (a-Si) films on glass substrate. We designed an optical homogeneizer to reshape the large cross-section of the laser beam(10 x 5) cm(2), in order to reach a fluence up to 0.5 J/cm(2) over a (13 x 1) cm(2) area. The beam resulted spatially homogenous within 10% (referred to peak-to-peak fluctuations). We obtained poly-silicon films with grain size ranging from 0.1 to 2 mu m, depending on the laser energy density. These preliminary results show that the grain size is critically fluence-dependent when the so-called super-lateral-growth regime is approached (approximately at 0.42 J/cm(2) for a 50 nm-thick a-Si film), with a maximum slope of the grain size vs, energy density greater than 0.5 mu m/(mJ/cm(2)).
引用
收藏
页码:345 / 350
页数:6
相关论文
共 50 条
  • [31] INJECTION LOCKING IN A HIGH-POWER XECL LASER
    BYCHKOV, YI
    IVANOV, NG
    KOVALENKO, SE
    LOSEV, VF
    PANCHENKO, N
    KVANTOVAYA ELEKTRONIKA, 1992, 19 (02): : 133 - 135
  • [32] Long-pulse laser design and experimental work
    Helal, Osama
    Yong, Tan
    Yunfeng, Ding
    Cai, HongXing
    INTERNATIONAL SYMPOSIUM ON PHOTOELECTRONIC DETECTION AND IMAGING 2013: HIGH POWER LASERS AND APPLICATIONS, 2013, 8904
  • [33] Demonstration of a high-power long-pulse 140-GHz gyrotron oscillator
    Blank, M
    Felch, K
    Borchard, P
    Cahalan, P
    Cauffman, SR
    Chu, TS
    Jory, H
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2004, 32 (03) : 867 - 876
  • [34] THEORY AND OPERATION OF HIGH-POWER CW AND LONG-PULSE DYE-LASERS
    TESCHKE, O
    DIENES, A
    WHINNERY, JR
    IEEE JOURNAL OF QUANTUM ELECTRONICS, 1976, 12 (07) : 383 - 395
  • [35] Long-pulse efficient XeCl laser with pre-pulse formed by an inductive energy storage
    Panchenko, AN
    Tarasenko, VF
    Baksht, EH
    XIII INTERNATIONAL SYMPOSIUM ON GAS FLOW AND CHEMICAL LASERS AND HIGH-POWER LASER CONFERENCE, 2000, 4184 : 357 - 360
  • [36] Amorphous silicon crystallisation by a long-pulse excimer laser
    Di Lazzaro, P
    Bollanti, S
    Bonfigli, F
    Flora, F
    Giordano, G
    Letardi, T
    Murra, D
    Zheng, CE
    Baldesi, A
    XIII INTERNATIONAL SYMPOSIUM ON GAS FLOW AND CHEMICAL LASERS AND HIGH-POWER LASER CONFERENCE, 2000, 4184 : 525 - 529
  • [37] DESIGN OF A HIGH-POWER LONG-PULSE CO2-LASER FOR ALPHA-PARTICLE THOMSON SCATTERING
    HUTCHINSON, DP
    VANDERSLUIS, KL
    REVIEW OF SCIENTIFIC INSTRUMENTS, 1986, 57 (08): : 1849 - 1849
  • [38] Linewidth reduction of a long-pulse, low-gain XeCl* laser with intracavity etalons
    Hofstra, RM
    van Goor, FA
    Witteman, WJ
    JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 1999, 16 (07) : 1068 - 1071
  • [39] Efficient long-pulse XeCl laser with a prepulse formed by an inductive energy storage device
    Baksht, EK
    Panchenko, AN
    Tarasenko, VF
    QUANTUM ELECTRONICS, 2000, 30 (06) : 506 - 508
  • [40] Reliable high-power long-pulse 8XX-nm diode laser bars and arrays operating at high temperature
    Fan, Li
    Cao, Chuanshun
    Thaler, Gerald
    Nonnemacher, Dustin
    Lapinski, Feliks
    Ai, Irene
    Caliva, Brian
    Das, Suhit
    Walker, Robert
    Zeng, Linfei
    McElhinney, Mark
    Thiagarajan, Prabhu
    HIGH-POWER DIODE LASER TECHNOLOGY AND APPLICATIONS IX, 2011, 7918
12345