首页>>团队成员>>浙江大学课题组>>固定研究人员>>邱建荣

邱建荣教授

​一、基本信息

性别：男

籍贯：浙江宁波

学历：博士

毕业学校：日本冈山大学​

职称：教授、博导

邮箱：qjr@scut.edu.cn

​浙大个人主页：http://person.zju.edu.cn/0004013

简介：邱建荣，2001年获国家杰出青年基金，2008年入选教育部长江特聘教授，现任教育部“玻璃光纤材料与器件”创新团队带头人。他的团队主要从事功能玻璃、超快激光与玻璃相互作用以及无机发光材料的研究。迄今为止发表SCI收录论文500余篇（国际权威期刊如Adv. Mater., J. Am. Chem. Soc., Angew. Chem. Int. Ed., Phys. Rev. Lett., Nano Lett.等影响因子大于3的215篇），被SCI他引9180余次。申请专利125项，授权54项（国外4项）。在OECC等国际会议作大会或邀请报告52次。8项研究成果被Nature的Science update等作了介绍。1999年获日本稀土学会足立奖（每年1名）。2005年获国际Otto-Schott研究奖（华人唯一），2007年获日本陶瓷协会学术奖（华人首次）。兼任了中国硅酸盐学报、J. Non-Cryst. Solids, Int. J. Appl. Glass Sci., Frontires in Materials-Glass Science等期刊的副主编或编委。

二、学习工作经历

1989年4月–1992年3月，日本冈山大学自然科学研究科，博士学位；

1983年9月–1986年7月，武汉工业大学（现武汉理工大学）材料学院，硕士学位；

1979年9月–1983年7月，西北轻工业学院（现陕西科技大学）材料系，学士学位；

2015年9月–至今，         浙江大学光电科学与工程学院，求是特聘教授、博士生导师。

2009年9月–2015年8月，  华南理工大学材料科学与工程学院，教育部长江特聘教授、博士生导师；

2005年4月–2009年8月，  浙江大学材料与化学工程学院，求是特聘教授、博士生导师；

2000年4月–2005年3月，  日本文部科学省科学技术振兴机构、日本京都大学，Group Leader；

中国科学院上海光机所，百人计划研究员、博士生导师；

1999年10月–2000年3月， 美国康奈尔大学应用与工程物理系，Research Associate；

1995年4月–1999年9月，  日本科技厅新技术事业团(JST)创造科学推进事业(ERATO)、京都大学，Chief Researcher；

1992年4月–1995年3月，  日本山村硝子株式会社新型材料研究所，研究员；

1988年6月–1989年3月，  日本神奈川大学，客座研究员；

1986年8月–1988年5月，  上海建材学院（现同济大学材料学院），助教；

三、研究方向

1. 新型光电功能材料与器件特别是玻璃与微晶玻璃光纤

2. 强场（飞秒激光等）与材料的相互作用

3. 纳米发光材料与器件

4. 非线性光学材料（二维材料与拓扑绝缘体）

四、获奖荣誉

2015年3月，美国陶瓷协会G. Morey奖（中国科学家首次）；

2012年9月，华南理工大学“最受学生喜爱的导师”；

2007年5月，日本陶瓷学会学术奖（华人首次）；

2005年4月，“Otto-Schott Research Award”，德国The Ernst Abbe Fund（华人唯一）；

2005年6月，上海市优秀新材料产品奖（玻璃激光彩色内雕）；

2002年5月，日本陶瓷协会仓田奖（每年2-3人）；

2001年8月，国家杰出青年基金资助（终期评审为特优）；

2000年4月，中国科学院“引进国外杰出人才”百人计划（终期评审为优秀）；

1999年5月，日本稀土学会奖（足立赏，每年一人）；

1997年12月，”Young Scientist and Engineer Award”，Inter. Symposium on Materials Science and Engineering。

五、科研项目

 1．飞秒激光诱导透明介质功能微结构的机理与应用，国家自然科学基金重点项目，280万，2012.01-2016.12，邱建荣，贾天卿，彭明营，张诗按，钱奇，董国平，叶柿，张伟南，曹人平，张料林

2．飞秒激光诱导玻璃中粒子迁移的物理机制和应用，37万，国家自然科学基金面上项目，2011.01-2013.12，邱建荣，董国平，钱奇，张伟南，张维娟，黄小勇，张料林，陈飞

3．新型玻璃光纤材料与器件，教育部团队项目，300万，2014.1-2016.12，邱建荣，张勤远，杨中民，彭明营，徐善辉，周时凤，叶柿，姜中宏，董国平，钱奇，陈东丹，张伟南，甘久林，马志军

4．新型玻璃光纤激光器的研究，广东省团队项目，250万，2011.10-2016.09，邱建荣，张勤远，杨中民，姜中宏，钱奇，陈东丹，董国平，叶柿，樊婷，张伟南，张料林，曹人平，陈飞

5．极端强场超快激光与物质相互作用的新效用新物理， 61万，973计划分课题， 2013.1-2015.8，邱建荣，董国平，张料林

6．近红外长余辉发光材料的设计合成与应用探索，85万，国家自然科学基金面上项目，2015-2018，邱建荣，马志军，张航，李杨，张晓闻，陈智，吴溢铃，方再金，肖全兰，秦嬉嬉

7.脉冲强磁场调控二维半导体的光致发光,15万,国家重点实验室开放课题，2015.12.01-2016.12.3
8.新型长余辉材料的开发及其生物成像的应用，15万,浙江省科技厅公益性项目，2015.01.01-2016.12.31

9. 强场超快激光操控大分子和凝聚态物质微结构及其超快动力学，310万，国家自然科学基金重点项目，2006.09.01-2011.08.30 

10. 基于能量传递的宽带近红外发光增强和光放大,35万，国家自然科学基金面上项目，2009.01.01-2011.12.31  

11. 基于表面等离子体增强的光学线性,23万,横向项目，2009.01.01-2009.12.31 

12. Bi掺杂玻璃的红外宽带发光机制及其光放大特性，32万，国家自然科学基金面上项目，2007.01.01-2009.12.30

六、代表性论文 (仅选取材料、化学及光学领域权威期刊中的代表作)

1. H. Sun, J. Zhou, J. Qiu, "Recent advances in bismuth activated photonic materials", Prog. Mater. Sci., 64(2014) 1.

2. F. Liu, J. Qiu, “Recent advances in energy transfer in bulk and nanoscale luminescent materials: from spectroscopy to applications”,Chem Soc Rev, 44(2015) 8714.

3. Y. Li, M. Gecevicius, J. Qiu, “Long persistent phosphors—from fundamentals to applications”, Chem Soc Rev, 45(2016) 82090.

4. S. Zhou, Q. Guo, H. Inoue, Q. Ye, A. Masuno, B. Zheng, Y. Yu, and J. Qiu, “Topological Engineering of Glass for Modulating Chemical State of Dopants”, Adv. Mater., 26(2014) 7966.

5. Y. Shimotsuma, M. Sakakura, P. Kazansky, M. Beresna, J. Qiu, K. Miura, K. Hirao, "Ultrafast Manipulation of Self-Assembled Form Birefringence in Glass (vol 22, pg 4039, 2010)", Adv. Mater., 22(2010) 5442.

6. J. Qiu, X. Jiang, C. Zhu, M. Shirai, J. Si, N. Jiang, K. Hirao, “Manipulation of gold nanoparticles inside transparent materials”,Angew. Chem. Int. Ed., 43(2004)2234.

7. H. Jia, S. Zheng, C. Xu, W. Chen, J. Wang, X. Liu, J. Qiu, “Near-infrared light-induced photocurrent from (NaYF₄:Yb-Tm)/Cu₂O composite thin film”, Adv. Energy Mater., DOI:10.1002/aenm.201401041.

8. G. Dong, Y. Zhang, Q. Pan, J. Qiu, "A fantastic graphitic carbon nitride (g-C₃N₄) material: Electronic structure, photocatalytic and photoelectronic properties", J. Photochem. Photobio. C-Photochem. Rev., 20(2014) 33.

9. D. Tan, S. Zhou,J. Qiu,N. Khusro, "Preparation of functional nanomaterials with femtosecond laser ablation in solution", J. Photochem. Photobio. C-Photochem. Rev., 17(2013) 50.

10. J. Zhou, G. Chen, E. Wu, G. Bi, B. Wu, Y. Teng, S. Zhou, J. Qiu, "Ultrasensitive Polarized Up-Conversion of Tm³⁺-Yb³⁺ Doped beta-NaYF₄ Single Nanorod", Nano Lett., 13(2013) 2241.

11. S. Kanehira, J. Si, J. Qiu, K. Hirao, “Periodic nanovoid structures via femtosecond laser irradiation”, Nano Lett., 5 (2005)1591.

12. S. Zhou, C. Li, G. Yang, G. Bi, B. Xu, Z. Hong, K. Miura, K. Hirao, J. Qiu, "Self-Limited Nanocrystallization-Mediated Activation of Semiconductor Nanocrystal in an Amorphous Solid", Adv. Funct. Mater., 23(2013) 5436.

13. S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Lakshminarayana, J. Hao, J. Qiu, "Multifunctional bismuth-doped nanoporous silica glass: From blue-green, orange, red, and white light sources to ultra-broadband infrared amplifiers", Adv. Funct. Mater., 18(2008) 1407.

14. S. Zhou, N. Jiang, B. Wu, J. Hao, J. Qiu, "Ligand-Driven Wavelength-Tunable and Ultra-Broadband Infrared Luminescence in Single-Ion-Doped Transparent Hybrid Materials", Adv. Funct. Mater., 19(2009) 2081.

15. S. Zhou, N. Jiang, K. Miura, S. Tanabe, M. Shimizu, M. Sakakura, Y. Shimotsuma, M. Nishi, J. Qiu, K. Hirao, “Simultaneous Tailoring of Phase Evolution and Dopant Distribution in the Glassy Phase for Controllable Luminescence”, J. Am. Chem. Soc., 132(2010) 17945…

16. Y. Li, Y. Li, R. Chen, K. Sharafudeen, S. Zhou, M. Gecevicius, H. Wang, G. Dong, Y. Wu, X. Qin, J. Qiu, “Tailoring of the trap distribution and crystal field in Cr³⁺-doped non-gallate phosphors with near-infrared long-persistence phosphorescence”, NPG Asia Mater, 7(2015).

17. P. Kazansky, H. Inouye, T. Mitsuyu, K. Miura, J. Qiu, K. Hirao, “Anomalous anisotropic light scattering in Ge-doped silica glass”,Phys. Rev. Lett., 82(1999)2199.

18. Y. Shimotsuma, P. Kazansky, J. Qiu, K. Hirao, “Self-organized nanogratings in glass irradiated by Ultrashort light pulses”, Phys. Rev. Lett., 91(2003)247405.

19. T. Peng, A. Hasegawa, J. Qiu, K. Hirao, “Fabrication of titania tubules with high surface area and well-developed mesostructura walls by surfactant-mediated templating method”, Chem. Mater., 15(2003)2011.

20. Y. Shimotsuma, T. Yuasa, H. Homma, J. Qiu, “Photoconversion of copper flakes to nanowires with ultrashort pulse laser irradiation”,Chem. Mater., 19(2007)1206.

21. P. Chen, M. Song, E. Wu, B. Wu, J. Zhou, H. Zeng, X. Liu, J. Qiu, “Polarization modulated upconversion luminescence: single particle vs. few-particle aggregates”, Nanoscale, 7(2015) 6462.

22. P. Chen, J. Zhang, B. Xu, X. Sang, W. Chen, X. Liu, J. Han, J. Qiu, "Lanthanide doped nanoparticles as remote sensors for magnetic fields", Nanoscale, 6(2014) 11002.

23. S. Zheng, W. Chen, D. Tan, J. Zhou, Q. Guo, W. Jiang, C. Xu, X. Liu, J. Qiu, "Lanthanide-doped NaGdF₄ core-shell nanoparticles for non-contact self-referencing temperature sensors", Nanoscale, 6(2014) 5675.

24. D. Tan, Y. Yamada, S. Zhou, Y. Shimotsuma, K. Miura, J. Qiu, "Photoinduced luminescent carbon nanostructures with ultra-broadly tailored size ranges", Nanoscale, 5(2013) 12092.

25. D. Tan, K. Sharafudeen, S. Zhou and J. Qiu, “Comment on "Synthesis, functionalization and bioimaging applications of highly fluorescent carbon nanoparticles" by Sourov Chandra et al., Nanoscale, 2011, 3, 1533”,  Nanoscale, 4(2012)6664.

26. G. Dong, B. Chen, X. Xiao, G. Chai, Q. Liang, M. Peng and J. Qiu, “Morphology and phase control of fluorides nanocrystals activated by lanthanides with two-model luminescence properties”, Nanoscale, 4(2012)4658.

27. J. Zhou, N. Shirahata, H. Sun, B. Ghosh, M. Ogawara, Y. Teng, S. Zhou, R.  Chu, M. Fujii, J. Qiu, "Efficient Dual-Modal NIR-to-NIR Emission of Rare Earth Ions Co-doped Nanocrystals for Biological Fluorescence Imaging", J. Phys. Chem. Lett., 4(2013) 402.

28. D. Tan, S. Zhou, B. Xu, P. Chen, Y. Shimotsuma, K. Miura, J. Qiu, "Simple synthesis of ultra-small nanodiamonds with tunable size and photoluminescence", Carbon, 62(2013) 374.

29. Z. Ma, W. Chen, Z. Hu, X. Pan, M. Peng, G. Dong, S. Zhou, Q. Zhang, Z. Yang, J. Qiu, "Luffa-Sponge-Like Glass-TiO₂ Composite Fibers as Efficient Photocatalysts for Environmental Remediation", ACS Appl. Mater. & Interf., 5(2013) 7527.

30. X. Liu, S. Ye, Y. Qiao, G. Dong, Q. Zhang, J. Qiu, "Facile synthetic strategy for efficient and multi-color fluorescent BCNO nanocrystals", Chem. Commun., (2009) 4073.

31. S. Zhou, W. Lei, N. Jiang, J. Hao, E. Wu, H. Zeng, J. Qiu, "Space-selective control of luminescence inside the Bi-doped mesoporous silica glass by a femtosecond laser", J. Mater. Chem., 19(2009) 4603.

32. G. Dong, X. Xiao, Y. Chi, B. Qian, X. Liu, Z. Ma, E. Wu, H. Zeng, D. Chen, J. Qiu, "Size-dependent polarized photoluminescence from Y₃Al₅O₁₂: Eu³⁺ single crystalline nanofiber prepared by electrospinning", J. Mater. Chem., 20(2010) 1587.

33. Z. Ma, H. Ji, Y. Teng, G. Dong, D. Tan, M. Guan, J. Zhou, J. Xie, J. Qiu, M. Zhang, "Engineering and optimisation of medically multi-functional mesoporous SiO2 fibers as effective wound dressing material", J. Mater. Chem., 21(2011) 9595.

34. G. Dong, X. Xiao, L. Zhang, Z. Ma, X. Bao, M. Peng, Q. Zhang, J. Qiu, "Preparation and optical properties of red, green and blue afterglow electrospun nanofibers", J. Mater. Chem., 21(2011) 2194.

35. N. Zhang, J. Qiu, et al., “Broadband tunable near-infrared emission of Bi-doped composite germanosilicate glasses”, J. Mater. Chem., 22(2012)3154.

36. H. Jia, C. Ping, C. Xu, J. Zhou, X. Sang, J. Wang, C. Liu, X. Liu, J. Qiu, “Fabrication of the (Y₂O₃:Yb-Er)/Bi₂S₃ composite film for near-infrared photoresponse”, J Mater Chem  A. 3(2015) 5917.

37. X. Sang, W. Chen, P. Chen, X. Liu, J. Qiu, “Transparent organic/inorganic nanocomposites for tunable full-color upconversion”, J Mater Chem C, 3(2015) 9089.

38. S. Fan, G. Wu, H. Zhang, Y. Yu, J. Qiu, G. Dong, “Formation and selective micron-regional control of PbS quantum dots in glasses using femtosecond laser pulsation”, J Mater Chem C, 3(2015) 6725.

39. H. He, Y. Zhang, Q. Pan, G. Wu, G. Dong, J. Qiu, “Controllable synthesis of Zn₂GeO₄:Eu nanocrystals with multi-color emission for white light-emitting diodes”, J Mater Chem C, 3(2015) 5419.

40. Q. Xiao, W. Lin, G. Chen, C. Ding, G. Dong, C. Lin, B. Wu, E. Wu, H. Zeng, J. Qiu, “Morphology and polarization-dependent second harmonic generation in single hexagonal sodium niobate micro/nano-crystals”, J Mater Chem C, 3(2015) 4070.

41. S. Ye, Y. Zhang, H. He, J. Qiu, G. Dong, “Simultaneous broadband near-infrared emission and magnetic properties of single phase Ni²⁺-doped beta-Ga₂O₃ nanocrystals via mediated phase-controlled synthesis”, J Mater Chem C, 3(2015) 2886.

42. J. Zhou, G. Chen, Y. Zhu, L. Huo, W. Mao, D. Zou, X. Sun, E. Wu, H. Zeng, J. Zhang, L. Zhang, J. Qiu, S. Xu, “Intense multiphoton upconversion of Yb³⁺-Tm³⁺ doped beta-NaYF₄ individual nanocrystals by saturation excitation”, J Mater Chem C, 3(2015) 364

43. D. Tan, X. Liu, Y. Dai, G. Ma, M. Meunier, J. Qiu, “A Universal Photochemical Approach to Ultra-Small, Well-Dispersed Nanoparticle/Reduced Graphene Oxide Hybrids with Enhanced Nonlinear Optical Properties”, Adv Opt Mater, 3(2015) 836.

44. Z. Fang, R. Cao, F. Zhang, Z. Ma, G. Dong, J. Qiu, "Efficient spectral conversion from visible to near-infrared in transparent glass ceramics containing Ce³⁺-Yb³⁺ codoped Y₃Al₅O₁₂ nanocrystals", J. Mater. Chem. C, 2(2014) 2204.

45. B. Xu, J. Hao, Q. Guo, J. Wang, G. Bai, B. Fei, S. Zhou, J. Qiu, "Ultrabroadband near-infrared luminescence and efficient energy transfer in Bi and Bi/Ho co-doped thin films", J. Mater. Chem. C, 2(2014) 2482.

46. Y. Li, S. Zhou, Y. Li, K. Sharafudeen, Z. Ma, G. Dong, M. Peng, J. Qiu, "Long persistent and photo-stimulated luminescence in Cr³⁺-doped Zn-Ga-Sn-O phosphors for deep and reproducible tissue imaging", J. Mater. Chem. C, 2(2014) 2657.

47. J. Zhou, J. Deng, H. Zhu, X. Chen, Y. Teng, H. Jia, S. Xu, J. Qiu, "Up-conversion luminescence in LaF₃:Ho³⁺ via two-wavelength excitation for use in solar cells", J. Mater. Chem. C, 1(2013) 8023.

48. R. Cao, F. Zhang, G. Dong, N. Zhang, J. Qiu, "Near-infrared to mid-infrared photoluminescence of Bi₂O₃-GeO₂ binary glasses: comment", Opt. Lett., 38(2013) 1230.

49. B. Xu, G. Bai, J. Wang, Q. Guo, D. Tan, W. Chen, X. Liu, S. Zhou, J. Hao, J. Qiu, "Enhanced broadband excited upconversion luminescence in Ho-doped glasses by codoping with bismuth", Opt. Lett., 39(2014) 3022.

50. F. Zhang, Y. Yu, C. Cheng, Y. Dai, J. Qiu, "Fabrication of polarization-dependent light attenuator in fused silica using a low-repetition-rate femtosecond laser", Opt. Lett., 38(2013) 2212.

51. G. Wu, S. Fan, Y. Zhang, G. Chai, Z. Ma, M. Peng, J. Qiu,G. Dong, "2.7 mu m emission in Er³⁺:CaF₂ nanocrystals embedded oxyfluoride glass ceramics", Opt. Lett., 38(2013) 3071.

52. F. Luo, J. Song, X. Hu, H. Sun, G. Lin, H. Pan, Y. Cheng, L. Liu, J. Qiu, Q. Zhao, Z. Xu, "Femtosecond laser-induced inverted microstructures inside glasses by tuning refractive index of objective's immersion liquid", Opt. Lett., 36(2011) 2125

53. G. Lin, F. Luo, F. He, Y. Teng, W. Tan, J. Si, D. Chen, J. Qiu, Q. Zhao, Z. Xu, "Space-selective precipitation of Ge crystalline patterns in glasses by femtosecond laser irradiation", Opt. Lett., 36(2011) 262.

54. J. Qiu, K. Kojima, K. Miura, T. Mitsuyu, K. Hirao, “Infrared femtosecond laser pulse-induced permanent reduction of Eu³⁺ to Eu²⁺ in a fluorozirconate glass”, Opt. Lett., 24(1999)786.

55. J. Qiu, J. Si, K. Hirao, “Photoinduced stable second hamonic generation in chalcogenide glasses”, Opt. Lett., 26(2001)914.

56. J. Qiu, X. Jiang, C. Zhu, H. Inouye, J. Si, K. Hirao, “Optical properties of structure-modified Au-ion-doped glasses”, Opt. Lett.,29(2004)370.

57. M. Peng, J. Qiu, D. Chen, X. Meng, L. Yang, X. Jiang, C. Zhu, “Bismuth and aluminum-codoped germanium oxide glasses for super-broadband optical amplification”, Opt. Lett., 29(2004)1998.

58. H. Zhang, X. He, W. Lin, R. Wei, F. Zhang, X. Du, G. Dong, J. Qiu, “Ultrafast saturable absorption in topological insulator Bi₂SeTe₂nanosheets”, Opt Express, 23(2015) 13376.

59. Z. Fang, S. Zheng, W. Peng, H. Zhang, Z. Ma, G. Dong, S. Zhou, D. Chen, J. Qiu, “Ni²⁺ doped glass ceramic fiber fabricated by melt-in-tube method and successive heat treatment”, Opt Express, 23(2015) 28258.

60. H. Zhang, F. Zhang, Y. Yu, X. Du, G. Dong, J. Qiu, "Grating-assisted generation of regular two-dimensional multicolored arrays in a tellurite glass", Opt. Express, 22(2014) A1278.

61. Q. Guo, B. Zheng, S. Zhou, B. Xu, Y. Qiu, Y. Yu, J. Qiu, "Origin of structural relaxation dependent spectroscopic features of bismuth-activated glasses", Opt. Express, 22(2014) 15924.

62. S. Ye, J. Zhou, S. Wang, R. Hu, D. Wang, J. Qiu, "Broadband downshifting luminescence in Cr³⁺-Yb³⁺ codoped garnet for efficient photovoltaic generation", Opt. Express, 21(2013) 4167.

63. R. Cao, F. Zhang, C. Liao, J. Qiu, "Yellow-to-orange emission from Bi²⁺-doped RF₂ (R = Ca and Sr) phosphors", Opt. Express,21(2013) 15728.

64. B. Xu, J. Hao, S. Zhou, J. Qiu, "Ultra-broadband infrared luminescence of Bi-doped thin-films for integrated optics", Opt. Express, 21(2013) 18532.

65. Q. Guo, B. Xu, D. Tan, J. Wang, S. Zheng, W. Jiang, J. Qiu, S. Zhou, "Regulation of structure rigidity for improvement of the thermal stability of near-infrared luminescence in Bi-doped borate glasses", Opt. Express, 21(2013) 27835.

66. R. Cao, M. Peng, L. Wondraczek and J. Qiu, “Superbroad near-to-mid-infrared luminescence from Bi₅³⁺ in Bi₅(AlCl₄)³” Opt. Express, 20(2012)2562.

67. R. Cao, M. Peng, J. Zheng, J. Qiu and Q. Zhang, “Superbroad near to mid infrared luminescence from closo-deltahedral Bi₅³⁺ cluster in Bi₅ (GaCl₄)₃”, Opt. Express, 20(2012)18505.

68. R. Cao, M. Peng and J. Qiu, “Photoluminescence of Bi²⁺-doped BaSO₄ as a red phosphor for white LEDs”, Opt. Express, 20(2012)A977.

69. X. Meng, J. Qiu, M. Peng, D. Chen, Q. Zhao, X. Jiang, C. Zhu, “Infrared broadband emission of bismuth-doped barium-aluminum-borate glasses”, Opt. Express, 13(2005)1635.

70. X. Meng, J. Qiu, M. Peng, D. Chen, Q. Zhao, X. Jiang, C. Zhu, “Near infrared broadband emission of bismuth-doped aluminophosphate glass”, Opt. Express, 13(2005)1628.

71. K. Miura, J. Qiu, H. Inouye, T. Mitsuyu, K. Hirao, “Photo-written optical waveguides in various glasses with ultrashort pulse laser”,Appl. Phys. Lett., 71(1997)3329.

72. J. Qiu, K. Miura, H. Inouye, Y. Kondo, T. Mitsuyu, K. Hirao, “Femtosecond laser-induced three-dimensional bright and long-lasting phosphorescence inside calcium aluminosilicate glasses doped with rare earth ions”, Appl. Phys. Lett., 73(1998)1763.

73.J. Qiu, K. Miura, T. Suzuki, T. Mitsuyu, K. Hirao, “Permanent photoreduction of Sm³⁺ to Sm²⁺ inside a sodium aluminoborate glasses by an infrared femtosecond pulsed laser”, Appl. Phys. Lett., 74(1999)10.

74.J. Qiu, P. Kazansky, J. Si, K. Miura, T. Mitsuyu, K. Hirao, A. L. Gaeta, “Memorized polarization dependent light scattering in rare-earth-ion-doped glass”, Appl. Phys. Lett., 77(2000)1940.

75.J. Qiu, C. Zhu, T. Nakaya, J. Si, K. Hirao, “Space-selective valence state manipulation of transition metal ions inside g1asses by a femtosecond laser”, Appl. Phys. Lett., 79(2001)3567.

76.J. Qiu, M. Shirai, T. Nakaya, J. Si, X. Jiang, C. Zhu, K. Hirao, “Space-selective precipitation of silver nanoparticles inside glasses”,Appl. Phys. Lett., 81(2002)3040.