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哈尔滨工业大学理学院研究生考研导师简介-赵华

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基本信息科学研究教育教学论文专著
基本信息


赵华,女,汉族,1962年生。哈尔滨工业大学理学院物理系教授。

荣誉称号
暂无填写


工作经历
时间工作经历
2010年1月至现在哈尔滨工业大学物理系

教授
2008年7月至2009年7月Boston College, Chestnut Hill, Massachusetts, USA,博士后
2007年11月至2008年7月

University of Kansas, Department of Physics and Astronomy, Lawrence, KS 66044, USA,,博士后
1997年10月至1998年9月德国斯图加特大学,光学技术研究所,访问学者


教育经历
2002年1月-2007年11月, 就读于University of Kansas, Department of Physics and Astronomy, Lawrence, KS 66044, USA 攻读博士学位1979年9月-1988年3月, 哈尔滨工业大学应用物理系, 本科生与硕士生


主要任职
理学院物理系教授,博士导师

研究领域:非线性与信息光学


有机光学材料在快速实时图像显示及干涉计量应用基于功能陶瓷的新型光电子器件与系统的研究与应用可调光学相干性的研究主要研究方向:

有机光学材料的实时图像处理近年来备受重视。其在宽广的电磁波段优良的通透性能,以及优良的品质因数,使其有广泛的应用前景。基于在制备有机光学材料的研究进展,以及开展快速实时图像显示及干涉计量等方面的近期工作,拟开展快速实时图像处理的研究工作。该方向的研究对开发实时全息立体显示系统、可挠式显示 (flexible display)技术以及更广泛的有机高分子非线性光学材料的探索均有重要意义。

陶瓷激光介质在强激光应用方面的举足轻重的地位带来东西方发达国家竞相追逐。此热潮也推动了上世纪70年代萌发的电光陶瓷多功能的激光器的研究,旨在推出便于集成、微型化的激光器及零损耗的光学转换及放大器。掺稀土镧代锆钛铅电光陶瓷激光材料在中波红外(mid-wave IR)具有优良的通透性能,可用于开发多功能可调近红外至中波红外相干光源,以应付在生物,遥感方面的急切需求。随机(无序)激光震荡(random lasing)与光子安德森定域效应(Anderson localization)的研究进年来掀起热潮。在随机激光器中,激光振荡的实现是借助于漫射性材料中强的散射致使光波被多次光散射陷留于增益材料中足够长的时间而被受激放大。值得指出的是,电光陶瓷激光材料可控电致光致散射效应可用于实现光子安德森定域。由于电光陶瓷材料的固有的多功能性,压电,铁点,光伏,热释电,电光,及其相对丰富的电荷载流子陷阱,可控的光致散射可以引发随机激光震荡。电光陶瓷激光材料是设计可调随机激光器(random laser)的理想增益介质。由于随机激光器的良好的单色性,此开发可满足基于光谱测量的可调单色光源的亟需。总之,随机激光震荡与光子安德森定域效应的研究既有较深的学术价值又有宽广的应用前景。微片激光器(microchip laser)及阵列与微振荡器(microresonator)的研究随着微纳加工技术的日臻成熟而有望在应用上取得突破。与单晶晶体材料相比,电光陶瓷激光材料可以有效掺入高浓度的稀土元素(据报道可高达29%)。利用此优势,可以开发多功能微片激光器(microchip laser)及阵列,亦可实现微振荡器(microresonator)。利用电光陶瓷激光材料的多功能特性,可望实现芯片实验系统(lab-on-chip)。此项研究在集成光学与新一代光学系统的研究方面均有深远意义。光学制冷(optical cooling)近十年的长足进展使其向实用化推进。掺稀土镧代锆钛铅电光陶瓷介质的声子特性与较强的上转换可以用于开辟光学制冷的新应用。采用微纳制备技术可以实现基于掺稀土镧代锆钛铅电光陶瓷介质新的光子晶体(photonic crystal),从而有效提高光学制冷的效率。

团队成员
张景文: 教授, 研究方向: 微纳光子学原理与器件的研究

讲授课程
简介:物理系专业必修课,涵盖几何光学,光的电磁理论,光学相干、衍射、偏振、散射,以及信息光学,近代光学,包括光的量子理论初步,非线性光学初步。

光学


招生信息
硕士招生:
电光陶瓷及微纳结构发光;

光学位相共轭与光纤等离子体成像与探测



博士招生:
基于有机非线性光学材料的全息立体显示;

基于新型陶瓷材料的新型光源的探索;

纳微结构器件: 飞秒激光光刻波导.放大器.激光器

论文期刊
1. Liang Li, Hua Zhao, and Jingwen Zhang*, “Electrically tuning reflection of graphene-based Tamm plasmon polariton structures at 1550 nm”, Appl. Phys. Lett. 111 (8), 083504 (2017). doi: http://dx.doi.org/10.1063/1.**.
2. Hua Zhao, Tingyu Xue, Hang Su, Yingce Wang, and Jingwen Zhang*, “Subwavelength coupling strengthened optical amplification in nematic liquid crystal cells”, Appl. Phys. Lett. 111 (11), 111602 (2017). doi: 10.1063/1.**.
3. Liang Li, Hua Zhao, and Jingwen Zhang*, “Tunable perfect absorber supported by accumulation electron gas at ITO-dielectric heterointerface", J. Phys. D: Appl. Phys. 50 (40), 405109 (2017). Published 13 September 2017. DOI: 10.1088/1361-6463/aa8662.
4. Dewang Huo, Jingwen Zhang, Hao Wang, Xiaoxuan Ren, Chao Wang, Hang Su and Hua Zhao*, “Broadband perfect absorber with monolayer MoS2 and hexagonal titanium nitride nano-disk array”, Nanoscale Research Letters, 12:465, (2017) Published: 25 July 2017, https://doi.org/10.1186/s11671-017-2232-4.
5. Caixia Xu, Jingwen Zhang, Long Xu, Xinyan Ma, and Hua Zhao*, “Photoinduced charge carriers@#% accumulation and its impact on random lasing in Nd3+ doped (Pb,La)(Zr,Ti)O3 ceramics”, Journal of Applied Physics 121, 243104 (2017). doi: 10.1063/1.**.
6. Caixia Xu, Jingwen Zhang, Long Xu, and Hua Zhao*, “Multiple scattering and random walk based spectra modulation in Ho3+/Tm3+ codoped (Pb,La)(Ti,Zr)O3 ceramics under plasma atmosphere”, Vol. 7, No. 6 | 1 Jun 2017 | OPTICAL MATERIALS EXPRESS 1745-1453 (2017), https://doi.org/10.1364/OME.7.001745.
7. Hua Zhao, Yingce Wang, Tingyu Xue, Hang Su, and Jingwen Zhang*, “Direct evidence of visible surface plasmon excitation in ITO film coated on LiNbO3 slabs”, Opt. Express, 25(6), 6227-6233 (2017). DOI: https://doi.org/10.1364/OE.25.006227.
8. Hao Wang, Xiaolong Wang, Chen Yan, Hua Zhao, Jingwen Zhang*, Christian Santschi, and Olivier J. F. Martin*, “Full Color Generation Using Silver Tandem Nanodisks”, ACS Nano, 11(5), 4419?4427 (2017), Accepted: March 20, 2017, Published: March 20, 2017 2017, DOI: 10.1021/acsnano.6b08465.
9. Caixia Xu, Jingwen Zhang, Haibin Sun, and Hua Zhao*, “Random lasing emission and oscillation in femtosecond laser machined microstructured Nd3+-doped (Pb, La)(Zr, Ti)O3 (10/65/35) ceramics”, RSC Adv. 6, 95442 (2016), DOI: 10.1039/c6ra19867h.
10. Hua Zhao, Tingyu Xue, Liang Li, and Jingwen Zhang*, “Ultra-low loss visible surface plasmon based waveguides formed in indium-tin-oxide coated Fe-doped LiNbO3 slabs”, Opt. Lett. 41(18), pp. 4150-4153 (2016). doi: 10.1364/OL.41.004150.
11. Liang Li, Jingwen Zhang, and Hua Zhao*, “Enhanced photorefractive performance of bulk Cu-doped KNSBN crystals through surface electrostatic modification”, Opt. Commun. Volume 382, 399–404 (2017). 1 January 2017.
12. Hao Wang, Hua Zhao, Hang Su, Guangwei Hu, and Jingwen Zhang*, “Active tuning epsilon-near-zero point of hyperbolic metamaterial at visible and near-infrared regimes”, Appl. Phys. Express 9(9), 092201 (2016), Published 4 August 2016. http://doi.org/10.7567/APEX.9.092201.
13. Caixia Xu, Jingwen Zhang, Yingyin. K. Zou, and Hua Zhao, “Backward optical gain originating from weak localization strengthened three-photon process in Er/Yb co-doped (Pb,La)(Zr,Ti)O3 ceramics”, Opt. Express, 24 (6) 5744-5473 (2016).
DOI:10.1364/OE.24.005744.
14. Jiayin Fu, Jingwen Zhang, Tingyu Xue, and Hua Zhao*, “Large exponential gain coefficient in polymer assisted asymmetric liquidcrystal cells originating from surface effect”, Opt. Commun. 374, 107–113 (2016). http://dx.doi.org/10.1016/j.optcom.2016.04.056
15. Long Xu, Jingwen Zhang, Caixia Xu, and Hua Zhao*, “Weak localization based enhancement of lasing emission under plasma atmosphere in Nd3+ doped (Pb, La) (Zr, Ti)O3 disordered ceramics”, Journal of Luminescence, 173, 185–191 (2016). Available online 13 January 2016 DOI: 10.1016/j.jlumin.2016.01.008.
16. Hua Zhao, Liang Li, Guangwei Hu, and Jingwen Zhang*, “High-order diffraction and nanolayer electrostatic modification
in Cu-doped (K0.5Na0.5)0.2(Sr0.75Ba0.25)0.9Nb2O6 crystals”, Optical Materials Express, Vol. 6, No. 2, 509-516 (2016), published 15 Jan 2016. DOI:10.1364/OME.6.000509.
17. Hao Wang, Hua Zhao, Guangwei Hu, Siren Li, Hang Su, and Jingwen Zhang*, “Graphene based surface plasmon polariton modulator controlled by ferroelectric domains in lithium niobate”, Scientific Reports, 5,18258 (2015). DOI: 10.1038/srep18258.
18. Hao Wang, Jingwen Zhang, and Hua Zhao*, “Surface plasmon polariton excitation by electrostatic modulation and
phase grating in indium-tin-oxide coated lithium niobate slabs”, Journal of Applied Physics, 118, 063102 (2015); doi: 10.1063/1.**.
19. Jingwen Zhang, Caixia, Xu, Long Xu, and Hua Zhao*, “Light energy trapping and localization in RE3+ doped PLZT ceramics”, Technical Papers: JTu5A.103.pdf CLEO:2015 Technical Digest ? OSA 2015 CLEO/IQEC’15, in San Jose, California, USA, May 10-25, 2015. (SCIE).
20. Hua Zhao, Liang Li, Hao Wang, and Jingwen Zhang*, “Visible excitation of surface plasmon polariton and strengthened nonlinearity in ITO coated Fe:LiNbO3”, Technical Papers: JTu5A.82.pdf CLEO:2015 Technical Digest ? OSA 2015 CLEO/IQEC’15, in San Jose, California, USA, May 10-15, 2015. (SCIE).
21. Hua Zhao, Tingyu Xue, and Jingwen Zhang*, “Strengthened nonlinearity in liquid crystal panel with ZnSe aligning layers due to surface charge accumulation”, SPIE 9565-16, Optics and Photonics, 2015, Liquid Crystals XIX, Sunday–Monday 9–10 August 2015, San Diego, California, USA. (SCIE).
22. Jingwen Zhang, Jiayin Fu, Guangwei Hu, and Hua Zhao*, “Electrostatic modification of ZnSe/polymer interface in polymer-nematogen composite and its impact on photorefractive hologram”, SPIE 9547-24, Optics and Photonics, 2015, Light Manipulating Organic Materials and Devices II, Monday–Thursday 10–13 August 2015, San Diego, California, USA. (SCIE).
23. Hua Zhao, Liang Li, Guanwei Hu, and Jingwen Zhang*, “Surface plasmon strengthened nonlinearity in indium-tin-oxide coated Cu-doped potassium sodium barium strontium niobate crystals”, SPIE 9564-26, Optics and Photonics, 2015,
Plasmonics: Metallic Nanostructures and Their Optical Properties XIIISunday–Thursday 9–13 August 2015, San Diego, California, USA. (SCIE).
24. Caixia Xu, Jingwen Zhang, Long Xu, and Hua Zhao*, “Mechanism of photochromic effect in Pb(Zr,Ti)O3
and (Pb,La)(Zr,Ti)O3 ceramics under violet/IR light illumination”,J. Appl. Phys. 117(2), 023107 (2015). http://dx.doi.org/10.1063/1.**.
25. Hao Wang, Hua Zhao, Liang Li, Chao Xu, and Jingwen Zhang*, “Surface plasmon polariton boosted photorefractive
scattering in indium tin oxide coated Fe-doped lithium niobate slabs”, Optics Communications, 338, 505– 510 (2015). doi:10.1016/j.optcom.2014.11.028.
26. Cuiling Meng, Hua Zhao, Tingyu Xue, Jiayin Fu, and Jingwen Zhang*, “Impact of thickness of liquid crystal layer on response rate and exponential gain coefficient with assistance of ZnSe film”, Applied Optics, 53(36)8456-8462 (2014)doi: 10.1364/AO.53.008456.
27. Hao Wang,Hua Zhao, Chao Xu, Liang Li, Guangwei Hu, and Jingwen Zhang*, “Coupling mediated by photorefractive phase grating between visible radiation and surface plasmon polaritons in iron-doped LiNbO3 crystal slabs coated with indium tin oxide”, Applied Physics Express (Apex), 7, 102001 (2014) http://dx.doi.org/10.7567/APEX.7.102001.
28. Hao Wang, Hua Zhao, Guangwei Hu, and Jingwen Zhang*, “Surface plasmon polaritons and visible light coupling via photorefractive phase gratings in indium tin oxide coated iron-doped LiNbO3 crystal slabs”, Oral presentation, Annual Meeting of Optical Society of America, October, 19-23, 2014, Tucson, Arizona, USA, FiO/LS 2014 ? OSA 2014 FTu1E.2.pdf.
29. Tingyu Xue, Hua Zhao, Cuiling Meng, Jiayin Fu, and Jingwen Zhang*, “Surface plasmon polaritons and visible radiation
coupling in dye doped liquid crystal cells with ZnSe interlayers”, Oral presentation, Annual Meeting of Optical Society of America, October, 19-23, 2014, Tucson, Arizona, USA, FiO/LS 2014 ? OSA 2014 FTu1E.3.pdf.
30. Hua Zhao, Xingru Zhang, Caixia Xu, Fankui Sun, Xuesheng Chen, Baldassare Di Bartolo, Kewen K. Li, and Jingwen
Zhang*, “Spectroscopic properties and optical amplification in electrooptic ceramics of Pb0.90La0.10[(Yb1/2Nb1/2)0.15 (Zr0.425Ti0.575)0.85]0.975O3”, J. Lumin, Volume 157, January 2015, 303–309 (2015). doi:10.1016/j.jlumin.2014.08.051.
31. Tingyu Xue, Hua Zhao, Cuiling Meng, Jiayin Fu, and Jingwen Zhang*, “Impact of surface plasmon polaritons on photorefractive effect in dye doped liquid crystal cells with ZnSe interlayers”, Opt. Express, 22, No. 17, 20964-20972 (2014). DOI:10.1364/OE.22.020964.
32. Long Xu, Hua Zhao, Caixia Xu, Siqi Zhang, and Jingwen Zhang*,“Optical energy storage and reemission based weak localization of light and accompanying random lasing action in disordered Nd3+ doped (Pb, La)(Zr, Ti)O3 ceramics”,J.
Appl. Phys. 116, 063104 (2014). http://dx.doi.org/10.1063/1.**.
33. Long Xu, Jingwen Zhang, Hua Zhao*,and Yi Zhang, “Enhanced random lasing emission under plasma atmosphere in Nd3+ doped (Pb,La)(Zr,Ti)O3 disordered ceramics”, Technical Papers: JTu4A.19.pdf CLEO:2014 Technical Digest ? OSA 2014 CLEO/IQEC’14, in San Jose, California, USA, June 8-June 13, 2014, (SCIE).
34. Hua Zhao, Kun Zhang, Long Xu, Fankui Sun, Xuesheng Chen, Kewen K. Li, and Jingwen Zhang*, “Optical amplification in disordered electrooptic Tm+3 and Ho+3 codoped lanthanum-modified lead zirconate titanate ceramics and study of spectroscopy and communication between cations”, J. Appl. Phys. 115, 073101 (2014). http://dx.doi.org/10.1063/1.**.
35. Long Xu, Hua Zhao, Caixia Xu, Siqi Zhang, Yingyin K. Zou, and Jingwen Zhang*, “Optoenergy storage and random walks assisted broadband amplification in Er3+-doped (Pb,La)(Zr,Ti)O3 disordered ceramics”, Appl. Opt. 53 (4), 764-768 (2014). http://dx.doi.org/10.1364/AO.53.000764.
36. Jingwen W. Zhang*, Long Xu, and Hua Zhao, “Random lasing and weak localization of light in normally transparent gain media”, Invited talk, Workshop on Complex Luminescence Phenomena in Inorganic Materials, Erice, Italy, Jul. 30-Aug. 5, 2014.
37. Long Xu, Jingwen Zhang, Siqi Zhang, Caixia Xu, Yingyin K. Zou, and Hua Zhao*, “Electroinduced structural change- and random walks-based impact on the light emission in Er+3/Yb+3 doped (Pb,La)(Zr,Ti)O3 ceramics”, J. Appl. Phys. 113, 223101 (2013). http://dx.doi.org/10.1063/1.**.
38. Jingwen Zhang, Hao Wang, Xiudong Sun, and Hua Zhao*, “Mid-wave IR oscillation enhanced optical amplification in thin Fe-doped lithium niobate slabs”, Technical Papers: JW2A.15.pdf CLEO:2013 Technical Digest ? OSA 2013 CLEO/IQEC’13, in San Jose, California, USA, June 9-June 14, 2013, (SCIE).
39. Jingwen Zhang, Haibin Sun, Yingyin K. Zou, Xuesheng Chen, B. Di Bartolo, and Hua Zhao*, “Multifunctional optical device with electrooptic Er3+ and Yb+3 doped lanthanum-modified lead zirconate titanate ceramic gain media”, J. Lightwave Technol. (Journal of Lightwave Technology) 31, 1495-1502 (2013). DOI:10.1109/JLT.2013.**.
40. Jingwen Zhang, Long Xu, Hao Wang, Feng Huang, Xiudong Sun, and Hua Zhao*, “Random lasing and weak localization of light in transparent Nd+3 doped phosphate glass”, Appl. Phys. Lett. 102, 021109 (2013); doi: 10.1063/1.**.
41. Hua Zhao, Chao Lian, Feng Huang, Tingyu Xue, Xiudong Sun, Yingyin K. Zou and Jingwen Zhang*, “Impact of grating spacing and electric field on real time updatable holographic recording in nanoscale ZnSe film assisted liquid crystal cells”, Appl. Phys. Lett. 101, 211118 (2012); doi: 10.1063/1.**.
42. Chao Lian, Hua Zhao, Yanbo Pei, Xiudong Sun, and Jingwen Zhang*, “Fast response beam coupling in liquid crystal cells sandwiched between ZnSe substrates”, Opt. Express, 20, 14, 15843-15852 (2012). doi: 10.1364/OE.20.015843.
43. Jingwen W. Zhang, Long Xu, Hua Zhao, and Xiudong Sun*, “Optoenergy storage and broadband optical amplification in Er3+ Doped PLZT Ceramics”, Technical Papers: JW2A.33, OSA/ CLEO 2012 at CLEO/IQEC’12 in San Jose, California, USA, May 6-May 11, 2012. (SCIE).
44. Jingwen W. Zhang, Long Xu, Xiudong Sun, Yingyin K. Zou, Xuesheng Chen, and Hua Zhao*, “Electroinduced broadband
light emission in rare earth doped PLZT ceramics”, Technical Papers: JW4A.39, OSA/CLEO 2012 at CLEO/IQEC’12 in San Jose, California, USA, May 6-May 11, 2012. (SCIE).
45. Ye Wu, Hua Zhao, Yingyin K. Zou, Xuesheng Chen, Baldassare Di Bartolo, and Jingwen W. Zhang*, “Optoenergy storage, stimulated processes in optical amplification with electrooptic ceramic gain media of Nd3+ doped lanthanum lead zirconate titanate”,Journal of Applied Physics, 110,No. 3, 033160 (2011). doi:10.1063/1.**.
46. Hua Zhao, Chao Lian, Xiudong Sun, and Jingwen W. Zhang*, “The nanoscale interlayer that raises response rate in
photorefractive liquid crystal polymer composites”, Optics Express, Vol. 19, No. 13, 12496-12502 (2011). doi: 10.1364/OE.19.012496.
47. Jingwen W. Zhang*, Haibin Sun, Hua Zhao, Yingyin K. Zou, Kewen K. Li, and Hua Jiang, “Dual functional optical amplifier with electrooptic gain medium of Er3+ doped PLZT ceramics”, Technical Papers: CThGG5.pdf, OSA/ CLEO 2011 at CLEO/IQEC’11, Baltimore, Maryland, USA, May 1-May 6, 2011, (SCIE).
48. Hua Zhao, Long Xu, Jingwen W. Zhang*,Yingyin K. Zou, Kewen K. Li, Xiaomei Guo, Hua Jiang, Xuesheng Chen, and Piling Huang,“Upconversion with Ho3+ and Tm3+ codoped lead lanthanum zirconate titanate ceramics”, Technical Papers: JWA52.pdf, OSA/ CLEO 2011 at CLEO/IQEC’11, Baltimore, Maryland, USA, May 1-May 6, 2011, (SCIE).
49. Hua Zhao, Xiudong Sun, Jingwen W. Zhang*, Yingyin K. Zou, Kewen K. Li, Yanyun Wang, and Hua Jiang, Pi-Ling Huang, and Xuesheng Chen, “Lasing action and optical amplification in Nd3+ doped electrooptic lanthanum lead zirconate titanate ceramics”, Opt. Express, 19(4), 2965-2971 (2011). doi: 10.1364/OE.19.002965.
50. J. W. Zhang*, H. Zhao, and X. Sun, "Broadband coverage optical sensor with liquid crystalline materials and pyroelectrics",MRS 2010 fall meeting, Boston, Massachusetts, USA, Nov. 30-Dec.4, 2010. 2010 MRS Fall Meeting proceedings, MRS Online Proceedings Library (2011), 1293: mrsf10-1293-l03-04, Published online by Cambridge University Press: 28 March 2011.
51. J. W. Zhang*, Y. Wu, H. Zhao, Y. Zou, K. K. Li, and H. Jiang, “Optical filtering, lasing action and optical amplification in electro-optic lanthanum lead zirconate titanate ceramics”, Symposium on Condensed Matters and Electro-Optic Physics, Tung Cheng University, Taichung, Taiwan, March 28-30, 2011.
52. J. W. Zhang*, K. K. Li, H. Zhao, Y. K. Zou, B. Di Bartolo, and X. Chen, “Wavelength translation based on photoinduced broadband absorption in Nd3+ doped lanthanum lead zirconate titanate ceramics”, Opt. Lett. 34, 1570-1572 (2009). doi: 10.1364/OL.34.001570.
53. H. Zhao, X. Wang, and J. Z. Wu, “Correlation of microwave nonlinearity and magnetic pinning in
high-temperature superconductor thin film band-pass filters”, Supercond. Sci.
Technol. 21 085012 (SCI) (2008).
54. H. Zhao, J. R. Dizon, and J. Z. Wu, “Third-order intermodulation in two-pole X-band HgBa2CaCu2O6+δ microstrip filters”, Appl. Phys. Lett. 91, 042506(SCI) (2007).
55. H. Zhao and J. Z. Wu, “Converting Hg-1212 to Tl-2212 via Tl–Hg cation exchange in combination with Tl
cation intercalation”, Supercond. Sci. Technol. 20, 327–330, (SCI) (2007).
56. Z. Xing, H. Zhao, and J. Z. Wu, “Reversible Exchange of Tl and Hg Cations on the Superconducting “1212” Lattice”, Adv. Mater., 18, 2743–2746 (SCI) (2006).
57. J. R. Dizon, H. Zhao, J. Baca, S. Mishra, R. L. Emergo, R. S. Aga, Jr., and J. Z. Wu, “Fabrication and characterization of two-pole X-band HgBa2CaCu2O6+δ microstrip filters” Appl. Phys. Lett. 88, 092507(SCI) (2006).
58. H. Zhao and J. Z. Wu, “Pinning lattice: Effect of rhenium doping on the microstructural evolution from Tl-2212 to Hg-1212 films during cation exchange”, J. Appl. Phys. Vol. 96, No. 4, 2136-2139 (SCI) (2004).
59. J. Zhang*, W. Sun, H. Zhao, S. Bian, K. Xu, M. Li, Y. Xu, “Enhancement of exponential gain coefficient as a result of light fanning effect in thin doped LiNbO3 crystals”, Opt. Lett. Vol. 18, No. 17, 1391-1393 (1993).
60. J. Zhang*, H. Zhao, W. Sun, S. Bian, and K. Xu, “Very high photorefractive gain in two-beam coupling with thin iron-doped LiNbO3 crystal”, Chin. Phys. Lett. Vol. 10, No. 4, 227-231 (1993).
61. J. Zhang*, H. Zhao, et al “Multi-functional real-time optical processor with a self-pumped phase conjugator of
Cu:KNSBN”, Chinese Journal of Lasers, Vol. B2, No. 6, 557-564 (1993).
62. J. Zhang*, H. Zhao et al, “Optical associative memory with "cat" self-pumped phase conjugator”, ACTA OPTICA SINICA, Vol. 14, No. 4 421-424 (1994).
63. H. Zhao*, J. Zhang, et al. “Broadening of the angle response range with high gain in doped LiNbO3 crystals”, Chinese Science Bulletin, Vol. 39, No. 10, 885-887 (1994).
64. H. Zhao*, J. Zhang, et al. “Beam coupling based on light crawling and improvement of imaging quality in thin doped LiNbO3 crystals”, ACTA OPTICA SINICA, Vol. 15, No.2, 235-238 (1995).
65. H. Zhao*, W. Sun, J. Zhang, et al. “Real-time image reversion and real-time high- and low-pass filtering”, ACTA OPTICA
SINICA, Vol. 15, No. 6, 734-737 (1995).

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