材料研究学报  2003, Vol. 17 Issue (1): 1-9

论文 本期目录 | 过刊浏览 |

飞秒激光空间选择性诱导玻璃微结构及应用

邱建荣; 钱国栋

中国科学院上海光学精密机械研究所光子技术国际合作实验室

邱建荣; 钱国栋 . 飞秒激光空间选择性诱导玻璃微结构及应用[J]. 材料研究学报, 2003, 17(1): 1-9.

摘要 参考文献 相关文章 Metrics 全文: PDF(1587 KB)   摘要: 利用飞秒激光与玻璃的非线性相互作用, 可以对玻璃进行空间空间选择性微观改性修饰, 赋予新的光功能. 本文介绍飞秒激光的特点及其对玻璃微结构的改性, 以及近年来利用飞秒激光进行玻璃的缺陷控制、光活性离子(稀土、过渡和重金属离子)价态操作、微晶析出与折射率调控及其在光开关、波分复用、波导型有源器件、光子晶体等微光学器件的制备及光学集成领域应用的进展. 关键词 ： 材料合成与加工工艺,  光子玻璃,  综述     Key words： 收稿日期: 1900-01-01      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 邱建荣 钱国栋 44.8K 链接本文: https://www.cjmr.org/CN/Y2003/V17/I1/1 1 J.F.Patrick,L.Fevre,Environmental issues in power elec- tronics(Lead Free),in:Applied Power Electronics Con- ference and Exposition(Texas,USA,10-14 March 2002) p.1,121-125 2 Y.Fukuda,M.G.Pecht,K.Fukuda,S.Fukuda,Lead-free soldering in the Japanese Electronics Industry,IEEE Transaction on Components and Packaging Technologies, 3(26),616(2003) 3 B.Trumble,Get the lead out!,IEEE Spectrum,5,55(1998) 4 ZHANG Xinping,WANG Hongwei,HUA Zigui,The com- position optimization of solders based on the studies of surface-active behavior of microadding elements,Journal of Xi'an Jiaotong University,28(4),14(1994) (张新平，王红卫，华自圭，基于微量添加元素表面活性研究的钎料成分优化，西安交通大学学报，28(4)，14(1994)) 5 X.P.Zhang,H.W.Wang,Y.W.Shi,Influence of elements Bi,Ag and In on surface tension and processing perfor- mance of tin-lead based solders,J.Mater.Sci-Mater.EL, 15,511(2004) 6 U.R.Kattner,W.J.Boettinger,On the Sn-Bi-Ag ternary phase diagram,J.Elec.Mater.,23,603(1994) 7 X.P.Zhang,C.B.Yu,S.Shrestha,L.Dorn,Creep and fatigue behaviors of the lead-free Sn-Ag-Cu-Bi and Sn60Pb40 solder interconnections at elevated tempera- tures,J.Mater.Sci-Mater.EL.,18,665(2007) 8 A.Grusd,Integrity of solder joints from lead-free solder paste,in:National Electronic Packaging and Production Conference Proceedings of the Technical Program (West and East),1,212-221(1999) 9 Y.Fukuda,P.Casey,M.Pecht,Evaluation of selected Japanese lead-free consumer electronics,Trans.Elec. Pack.Manufac.,26(4),305(2003) 10 Zs.Illyefalvi-Vitéz,J.Pinkola,G.Harsányi, Cs.Dominkovics,B.Illés,L.Tersztyánszky,Present status of transition to Pb-free soldering,Electronics Tech- nology:Meeting the Challenges of Electronics Technology Progress,28th International Spring Seminar,19-20 May 2005,88-93 11 J.H.L.Pang,B.S.Xiong,T.H.Low,Creep and fatigue char- acterization of lead free 95.5Sn-3.8Ag-0.TCu solder,in: Proceedings of 54th ECTC,Vol.2,(Las Vegas,USA,1- 4 June 2004) p.1333 12 A.H.Yanagawa,E.Ide,K.F.Kobayashi,Joint strength and interfacial microstructure between Sn-Ag-Cu and Sn-Zn- Bi solders and Cu substrate,Sci.Tech.Adv.Mater.,5, 267(2004) 13 LI Bo,SHI Yaowu,XIA Zhidong,LEI Yongping,GUO Fu,Research on the SnAgCu lead free solder with minute amount rare earth elements,Electronics Process Technol- ogy,25(5),193(2004) (李擘，史耀武，夏志东，雷永平，郭福，添加微量稀土元素的SnAgCu无铅钎料的研究，电子工艺技术，25(5)，193(2004)) 14 D.Suraski,K.Seelig,The current status of lead-free sol- der alloys,IEEE Trans.Elec.Pack.Manufac.,24(4), 244(2001) 15 S.Wiese,K.J.Wolter,Microstructure and creep behaviour of eutectic SnAg and SnAgCu solders,Microelectronics Reliability,44(12),1923(2004) 16 ZHANG Xinpin,YU Chuangbao,ZHANG Yupeng,ZHU min,Creep-resistance performance of two lead-free solders and comparison with Sn60Pb40 solder,Transactions of the China Welding Institution,28(2),1(2007) (张新平，于传宝，张宇鹏，朱敏，两种无铅钎料的抗蠕变性能及与Sn60Pb40钎料的比较，焊接学报，28(2)，1(2007)) 17 X.P.Zhang,L.M.Yin,C.B.Yu,Thermal creep and fracture behaviors of the lead-free Sn-Ag-Cu-Bi solder interconnec- tions under different stress levels,J.Mater.Sci-Mater. EL.,2007(in press,online on 30 June 2007) 18 C.M.L.Wu,A promising lead-free material for flip- chip bumps:Sn-Cu-RE,4th International Conference on Advanced Semiconductor Devices and Microsystems, (Smolenice Castle,Slovakia,14-16 October 2002) p.17-26 19 Q.Yu,T.Kiga,M.Takeuchi,K.Toi,Y.Katou,CSP mount- ing reliability with Sn-Zn-Bi in JIEP project,Proceedings of 2nd International Symposium on Environmentally Con- scious Design and Inverse Manufacturing,(Tokyo,Japan, 11-15 December 2001)p.1059-1063 20 J.M.Song,G.F.Lan,T.S.Lui,L.H.Chen,Microstructure and tensile properties of Sn-9Zn-xAg lead-free solder al- loys,Scripta Materialia,48,1047(2003) 21 WU Wenyun,QIU Xiaoming,YIN Shiqiang,SUN Daqian, LI Minggao,Influence of Bi,Ag on microstructure and properties of Sn-Zn lead-free solder,The Chinese Journal of Nonferrous Metals,16(1),158(2006) (吴文云，邱小明，殷世强，孙大谦，李明高，Bi、Ag对Sn- Zn无铅钎料性能与组织的影响，中国有色金属学报，16(1)，158(2006)) 22 YU Daquan,ZHAO Jie,WANG Lai,Wetting properties of Sn-9Zn solder alloy with trace rare earth elements,The Chinese Journal of Nonferrous Metals,13(4),1001(2003) (于大全，赵杰，王来，稀土元素对Sn-9Zn合金润湿性能的影响，中国有色金属学报，13(4)，1001(2003)) 23 ZHANG Wendian,Applied Surface Mount Technology (Beijing,Publishing House of Electronics Industry,2006) p.197 (张文典，实用表面组装技术(北京，电子工业出版社，2006) p．197) 24 R.K.Shiue,L.W.Tsay,C.L.Lin,J.L.Ou,A study of Sn-Bi- Ag-(In)lead-free solders,J.Mater.Sci.,38,1269(2003) 25 J.H.Lau,C.P.Wong,N.C.Le,S.W.R.Lee,Electron- ics Manufacturing with Lead-free,Halogen-free & Conductive-Adhensive Materials(Beijing,Chemical In- dustry Press,2005) (J．H．Lau，C．P．Wong，N．C．Le，s．W．R．Lee，电子制造技术-利用无铅、无卤素和导电胶材料，姜岩峰，张常年译(北京，化学工业出版社，2005)) 26 N.C.Lee,Flux technology for lead-free alloys and its im- pact on cleaning,27th Annual IEEE/CPMT/SEMI In- ternational Electronics Manufacturing Technology Sym- posium,San Jose,CA USA,17-18 July,2002,IEMT 2002, 316-322 27 WANG Suli,LEI Yongping,XIA Zhiadong,SHI Yaowu, LI Xiaoyan,Development of no-clean flux for lead-free sol- der,Electronics Process Technology,25(4),147(2004) (王素丽，雷永平，夏志东，史耀武，李晓延，无铅钎料用免清洗助焊剂的研制，电子工艺技术，25(4)，147(2004)) 28 K.N.Tu,J.C.M.Li,Spontaneous whisker growth on lead- free solder finishes,Mater.Sci.Eng.,A409,131(2005) 29 Y.Fukuda,M.Osterman,M.Pecht,The impact of electri- cal current,mechanical bending,and thermal annealing on tin whisker growth.Microelectronics Reliability,47, 88(2007) 30 J.Brusse,Tin whisker observations on pure tin-plated ceramic chip capacitors,AESF SUR/FIN Proceedings,( Navy Pier,Chicago,USA,24-27 June,2002)p.45-61 31 I.K.Huit,B.Ralph,A study of the initiation of the tomb- stoning effect on leadless chips,Int.J.Mach.Tool.Man- ufac.,35,1251(1995) 32 K.Zeng,R.Stierman,T.C.Chiu,D.Edwards,K.Ano, K.N.Tu,Kirkendall void formation in eutectic SnPb solder joint on bare Cu and its effect on joint reliability,J.Appl. Phys.,97,024508(2005) 33 T.R.Homa,Cracking of electronic packaging joints due to creep-fatigue,in:Proceedings of ASM's 3rd Conference on Electronic Packaging and Corrosion in Microelectron- ics,(Minneapolis,Minnesota,28-30 April 1987)p.209-216 34 K.Zeng,K.N.Tu,Six cases of reliability study of Pb-free solder joints in electronic packing technology,Mater.Sci. Eng.,R38,55(2002) 35 C.Chen,S.W.Liang,Electromigration issues in lead-free solder joints,J.Mater.Sci-Mater.EL.,18,259(2007) 36 K.N.Tu,K.Zeng,Tin-lead(SnPb)solder reaction in flip chip technology,Mater.Sci.Eng.,R34,1(2001) 37 M.Li,F.Zhang,W.T.Chen,K.Zeng,K.N.Tu,H.Balkan, P.Elenius,Interfacial microstructure evolution between eutectic SnAgCu solder and Al/Ni(V)/Cu thin films,J. Mater.Reseat.,17,1612(2001) 38 H.T.Chen,C.Q.Wang,M.Y.Li,D.W.Tian,Effect of Cu diffusion through Ni on the interfacial reactions of Sn3.5Ag0.75Cu and SnPb solders with Au/Ni/Cu sub- strate during aging,Mater.Lett.,60,1669(2006) 39 H.T.Chen,C.Q.Wang,M.Y.Li,Numerical and experimen- tal analysis of the Sn3.5Ag0.75Cu solder joint reliability under thermal cycling,Microelectronics Reliability,46, 1348(2006) 40 B.Ebersberger,R.Bauer,L.Alexa,Reliability of lead free SnAg solder bumps:Influence of electromigration and temperature,Proceedings of 2005 IEEE/ECTC,2005, 1407-1415 41 K.J.Puttlitz,G.T.Galyon,Impact of the ROHS Directive on high-performance electronic systems PartⅡ:Key re- liability issues preventing the implementation of lead-free solders,J.Mater.Sci-Mater.EL.,18347(2007) 42 R.K.Kirschman,W.M.Sokolowski,E.A.Kolawa,Die at- tachment for -120℃to +20℃thermal cycling of mi- croelectronics for future mars rovers-An overview,J.Elec- tronic Packaging,123,105(2001) 43 A.C.Keeney,D.M.Lee,J.S.Lehtonen,A.S.Francomacaro, Indium bump bonding for cryogenic applications,Proceed- ings of SPIE,4587,106(2001) 44 E.Suhir,The future of microelectronics and photonics and the role of mechanics and materials,J.Electronic Packag- ing,120,1(1998) 45 R.R.Tummala,Fundamentals of Microsystems Packaging (McGraw-Hill,New York,2001) 46 H.Hentzell,M.Olson,G.Arvidsson,Optical packaging technology-the next innovations,in:14th European Mi- croelectronics and Packaging Conference & Exhibition (Friedrichshafen,Germany,23-25 June 2003)p.1-5 47 C.C.Lee,S.Choe,Fluxless In-Sn bonding process at 140℃,Mater.Sci.Eng.,A333(1-2),45(2002) [1] 周海涛, 侯湘武, 汪彦博, 肖旅, 袁勇, 孙京丽. 高Nb-TiAl合金的高温变形行为及其板材的性能[J]. 材料研究学报, 2022, 36(6): 471-480. [2] 闫福照, 李静, 熊良银, 刘实. FeCr-ODS铁素体合金的氧化+粉锻工艺制备及其微观结构[J]. 材料研究学报, 2022, 36(6): 461-470. [3] 赵宁, 焦大, 朱艳坤, 刘德学, 刘增乾, 张哲峰. 天然铠甲高效防护的材料学机理[J]. 材料研究学报, 2022, 36(1): 1-7. [4] 王永鹏, 贾治豪, 刘梦竹. 二维CdO纳米棒的制备及其用于葡萄糖传感器的可行性[J]. 材料研究学报, 2021, 35(1): 53-58. [5] 夏傲, 赵晨鹏, 曾啸雄, 韩曰鹏, 谈国强. B掺杂MnO2的制备及其电化学性能[J]. 材料研究学报, 2021, 35(1): 36-44. [6] 蔡国栋, 程西云, 王典. FDM型3D打印316L不锈钢试样和La对析出物形貌和分布的影响[J]. 材料研究学报, 2020, 34(8): 635-640. [7] 谢礼兰, 杨冬升, 凌静. 高容量锂电池负极材料TiNb2O7的合成及其机理[J]. 材料研究学报, 2020, 34(5): 385-391. [8] 马炜杰,杨西荣,罗雷,刘晓燕,郝凤凤. 复合形变超细晶纯钛的动态再结晶模型[J]. 材料研究学报, 2020, 34(3): 217-224. [9] 姜巨福, 王迎, 肖冠菲, 邓腾, 刘英泽, 张颖. 变质细化和热处理对挤压铸造成形A356铝合金构件性能的影响[J]. 材料研究学报, 2020, 34(12): 881-891. [10] 杨占鑫, 吴琼, 任奕桥, 屈凯凯, 张哲豪, 仲为礼, 范广宁, 齐国超. 宏量制备层状Ti3C2及其超级电容的性能[J]. 材料研究学报, 2020, 34(11): 861-867. [11] 秦斌,王群,王富孟,靳利娥,解小玲,曹青. 高电导率低热膨胀系数针状焦的制备[J]. 材料研究学报, 2019, 33(1): 53-58. [12] 王强, 郝瑞亭, 赵其琛, 刘思佳. 多周期分层溅射硫化物靶制备铜锌锡硫薄膜太阳电池[J]. 材料研究学报, 2018, 32(6): 409-414. [13] 刘正华, 王兢, 杜海英, 王惠生, 李晓干, 王小风. 基于联合仿真方法研究静电纺丝轨迹[J]. 材料研究学报, 2018, 32(2): 127-135. [14] 李延伟, 谢志平, 刘参政, 姚金环, 姜吉琼, 杨建文. 二维褶皱状V2O5纳米材料的制备和储锂性能[J]. 材料研究学报, 2017, 31(5): 374-380. [15] 李成冬, 姚志垒, 李举, 徐进, 熊新. LaF3表面修饰Li[Li0.2Mn0.54Ni0.13Co0.13]O2的制备及其电化学性能[J]. 材料研究学报, 2017, 31(5): 394-400. Viewed Full text Abstract Cited   Shared      Discussed