山西田建国教授_田建国中国海洋大学_南开大学物理学院田建国

发布时间：2016-07-28 14:09

  本文关键词：田建国，由笔耕文化传播整理发布。

Professor Jianguo Tian

Principal Investigator

Email:

RESUME

 

Sept. 1981-Jun. 1985 Department of Physics, Nankai University,China, B.S.

Sept. 1985-Mar. 1991 Department of Physics, Nankai University, China, Ph.D

Mar. 1991-Nov. 1993 Department of Physics, Nankai University, China, Assistant Professor.

Dec. 1993-Nov. 1995 Department of Physics, Nankai University, China, Associate Professor.

Dec. 1995-Present School of Physics, China, Professor.

Oct. 1999-Present School of Physics, China, Doctoral supervisor.

Oct. 1995-Oct. 1996 Departamento de Fisica, Universidade Federal de Pernambuco, Brazil, Visiting Professor.

Mar. 2000-Jul. 2003 Department of Physics, East Carolina University, Visiting Professor.

Sept. 2001-Present Specially-appointed Professor at Nankai University.

 

SERVICE

 

The executive member of the council at the Optical Society of Tianjin，The reviewer of Optics Letters、Applied Physics Letters、Journal of Physics Chemistry B、Applied Optics、Optics Communication、Chinese Physics Letters, and so on.

 

 

Professor Chunping Zhang

Email:

Professor Weiping Zang

Email:

Associate Professor Wenyuan Zhou

Email:

Professor Yudong Li

Email:

Senior Engineer Yuxiang Ma

Email:

Associate Professor Zhibo Liu

Email:

Associate Professor Zubin Li

Email:

Associate Professor Qing Ye

Email:

Assistant Professor Shuqi Chen

Email:

Assistant Professor Hua Cheng

Email:

Assistant Engineer Wangwei Hui

Email: hww@nankai.edu.cn

Assistant Engineer Jianchun Mei

Email: mei@nankai.edu.cn

 

 

1. Excited states nonlinear absorption and refraction for organic and supramolecular materials, such as porphyrin and fullerene.

Organic nonlinear optical (NLO) materials have been paid a lot of attentions because of their large and fast nonlinearities and tailorability of molecular structure. Although the tailorability of organic molecule play an important role in finding the materials with large or tunable optical nonlinearities, the modification of structures only results in a discrete change of optical nonlinearities. In practical applications, a dynamic material with continuously tunable nonlinearities will be more useful. However, it is difficult to obtain dynamic optical nonlinearities only by the modification of structure. Recently, the emergence of supramolecular chemistry brought a new chance to the researches of optical nonlinearities. Since porphyrin supramolecular system has programmable, dynamic and combinatorial features, its configurations are richer than traditional organic molecular structures, and thus it can provide more versatile routes to alter the optical nonlinearities.

2. Studying on beam propagation method and applications, such as optimization of Z-scan technique and optical limiting.

For application of one dimensional photon crystal, we need to solve the Maxwell's equations. The well-known class of algorithms to solve Maxwell's equation is base on the finite-difference time-domain method.Since the FDTD method is an explicit scheme, its time step is limited by CFL. We present an implicit high-order unconditionally stable complex envelope algorithm to solve the TDME based on the Pade approximation and multistep method. Even for large steps the numerical dispersion and dissipation remain very small. Meanwhile, We propose a novel Z-scan theory for one-dimensional nonlinear photonic band gap materials also. Results show that the Z-scan curves for photonic band gap materials with nonlinear refraction are similar with those of the uniform materials with nonlinear refraction and nonlinear absorption simultaneously. The nonlinear optical properties of the defect material are the main contribution to the Z-scan results near the defect mode frequency.

3. Surface-enhanced Raman scattering fiber sensor

Surface-enhanced Raman scattering (SERS) opens up exciting opportunities in the fields of vibrational spectroscopy of chemical and biological objects. SERS can provide ultrasensitive detection and extremely high spatial resolution and even combine both features for identification of molecules as well as detailed studies of chemical and biological processes. In the last few years, there has been a lot of interest in developing the SERS sensors based on optical fiber. Examples include angled tip fiber sensor, D-shaped fiber sensor, nanorod arrays fiber sensor, and hollow core photonic crystal fiber. Using optical fibers as a SERS platform provides a number of advantages. First, optical alignment is easy and the confinement of light to the fiber core is assured once the light is coupled into the fiber. Second, the detection location is well-defined and easy to control. Third, there are a number of ways to make the SERS active surfaces on the fiber tip, including UV lithography, nanosphere lithography, e-beam lithography, and focused ion beam (FIB)

Recently, there has been particular interest in the use of patterned structures on the distal end of SERS fiber sensors. Patterned structures have been fabricated by lithography, FIB method or chemical methods and many different patterns can be realized. Often, the parameters of the fabricated structures and structures are chosen rather arbitrarily in previous papers . As a result, the resonance wavelength of the nanostructures is not consistent with the pump wavelength and, therefore, the pump light may not couple efficiently to intrinsic plasmon excitations of the nanostructures.

4. Plasmonic Metamaterials

Electromagnetic (EM) wave propagation in micro- and nano-structured materials has attracted considerable interest in recent years. Photonic crystals (PhCs) and metamaterials (MMs) are the two main classes of artificial optical materials. In a broader sense, the PhCs may be considered as a typical example of a MM. MMs are materials synthesized from small sub-wavelength structures that are designed to strongly influence the propagation characteristic of EM fields. Usually, both feature sizes and periods of MMs are much smaller than the wavelength of light. Because the flexibility of modern nanofabrication techniques enables tailoring of the optical properties of MM, various designs for specific MM unit cells have been proposed. The most prominent example is a combination of thin metallic wires and metallic split-ring-resonator (SRR), which have the shape of a ‘U’.

So far, many anomalous effects and applications of MM were proposed and investigated besides the negative index of refraction, such as inverse Snell’s law, inverse Doppler shift, inverse Cerenkov effect, and perfect lens. Furthermore, because of the good performance of MM in EM resonances and local intensity enhancement, we can also consider its application on linear or nonlinear plasmon resonances. Proper design of the MM’s structure can make it more correctly to control the resonant frequency, and also can plan the distribution of local intensity enhancement by changing the MM’s structure and size. These characters can be applied in many fields, such as surface enhanced Raman scattering (SERS) and stronger second-order harmonic generation.

5. Nano-optics and nano-photonics

Enhanced transmission through a single subwavelength aperture or aperture arrays.
Near-field enhancement and super resolution of a single subwavelength hole for near-filed imaging.
Surface plasmon dielectric waveguide, coupler and resonator.
Nonlinearity enhancement by periodic structured metal film or metal nano-particles.

6. Utrafast optics and its applications

Ultrafast laser is one of the most widely researched topics in modern optics. By now, ultrashort pulses are widely in spectroscopy, nonlinear optics and other hot topics of optics. For example, in 2005, Prof. John L. Hall and Prof. Theodor W. H?nsch shared the half of the Nobel prize of physics for their contributions to the development of laser-based precision spectroscopy, including the optical frequency comb technique. Without femtosecond laser, optical frequency comb was just a concept instead of useful measurement tool.

 

 

 

Year 2011

[13] Shuqi Chen, Hua Cheng, Haifang Yang, Junjie Li, Xiaoyang Duan, Changzhi Gu and Jianguo Tian, “Polarization insensitive and omnidirectional broadband near perfect planar metamaterial absorber in the near infrared regime,” Appl. Phys. Lett., 99, 253104 (2011).

[12] Jianxiong Li, Shuqi Chen, Ping Yu, Hua Cheng, Wenyuan Zhou, and Jianguo Tian, “Large enhancement and uniform distribution of optical near field through combining periodic bowtie nanoantenna with rectangular nanoaperture array,” Opt. Lett., 36, 4014 (2011).

[11] Zu-Bin Li, Wen-Yuan Zhou, Wei-Guo Yan and Jian-Guo Tian, "Near-Field Enhancement Through a Single Subwavelength Aperture with Gaps Inside", Plasmonics 6, 149-154 (2011).

[10] Zhibo Liu, LiLi, Yanfei Xu, Jiajie Liang, Xin Zhao, Shuqi Chen, Yongsheng Chen, and Jianguo Tian, “Direct patterning on reduced graphene oxide nanosheets using femtosecond laser pulses,” J. Opt., 13, 085601 (2011).

[9] Qing Ye, Jin Wang, Zhi-Chao Deng, Wen-Yuan Zhou, Chun-Ping Zhang and Jian-Guo Tian, "Measurement of the complex refractive index of tissue-mimicking phantoms and biotissue by extended differential total reflection method", J. Biomed. Opt. 16, 097001 (2011).

[8] Shuqi Chen, Wenyuan Zhou, Zubin Li, Zhibo Liu, and Jianguo Tian, “Study on Z-Scan characteristics for light-tunneling heterostructures composed of one-dimensional photonic band gap material and metallic film,” J. of Electromagn. Waves and Appl., 25, 97-110 (2011).

[7] Han Lin, Shuqi Chen, Axel Schülzgen, Yong Zeng, Feng Song, Jianguo Tian, and Nasser Peyghambarian, “Calculation and optimization of electromagnetic resonances and local intensity enhancements for plasmon metamaterials with sub-wavelength double-slots,” Progress In Electromagnetics Research, 113, 161-177 (2011).
 

[6] Xin Liu, Shuqi Chen, Weiping Zang, Jianguo Tian. “Optical limiting in one-dimensional photonic band gap material with a bulk nonlinear defect”, J. Opt. 13. 015202 (2011).

[5] Xin Liu, Shuqi Chen, Weiping Zang and Jianguo Tian, “Triple-layer guided-mode resonance Brewster filter consisting of a homogenous layer and coupled gratings with equal refractive index”, submitted to OPTICS. EXPRESS. 19. 8233-8241 (2011).

[4] Lin Dai, Jian-Xing Li, Wei-Ping Zang, and Jian-Guo Tian, “Vacuum electron acceleration driven by a tightly focused radially polarized Guassian beam”, Opt. Exp., Vol. 19, 9303 (2011).

[3] Jian Xing Li, Xiao Long Fan, Wei-Ping Zang, and Jian-Guo Tian, “Vacuum electron acceleration driven by two crossed Airy beams”, Opt.Lett., 36(5) 648 (2011).

[2] Li Yadong, Li Jianxing, Zang Weiping, and Tian Jianguo, “Study on Nonparaxial Gaussian Laser Beam”, Laser & Optoelectronics Progress, 48, 032601 (2011). (in Chinese)

[1] Xiao-Qing Yan, Xiao-Liang Zhang, Shuo Shi, Zhi-Bo Liu, and Jian-Guo Tian, "Third-order nonlinear susceptibility tensor elements of CS2 at femtosecond time scale" Opt Express 19, 5559 (2011).

 

 

 

Year 2010

[1] Jian-Xing Li, Wei-Ping Zang, and Jian-Guo Tian , “Analysis of electron capture acceleration channel in an Airy beam”, Opt. Lett., 35, 3258 (2010).

[2] Jian-Xing Li, Wei-Ping Zang, and Jian-Guo Tian, “Vacuum laser-driven acceleration by Airy beams”, Opt. Exp., 18, 7300 (2010).

[3] Hua Cheng, Wei-Ping Zang, Wenyuan Zhou, and Jian-Guo Tian, “Analysis of optical trapping and propulsion of Rayleigh particles using Airy beam”, Opt. Exp., 18, 20384 (2010).

[4] Cheng Hua, Zang Weiping, Zhao Ziyu, Li Zubin, Zhou Wenyuan, and Tian Jianguo, “Non-Paraxial Split-Step Semi-Vectorial Finite-Difference Method for Three-Dimensional Wide-Angle Beam Propagation”, CHIN.PHYS.LETT., 27, 014201 (2010).

[5] Jian Xing Li, Wei Ping Zang, and Jian Guo Tian, “Electron accelectation in vacuum induced by a tightly focused chirped laser pulse”, Appl.Phys.Lett., 96, 031103 (2010).

[6] Cuifeng. Ying, Wenyuan. Zhou, Qing. Ye, and Xiaoliang. Zhang, Jianguo Tian "Band-edge lasing in Rh6G-doped dichromated gelatin at different excitations,"J. Opt. 12, 115101(2010).

[7] Zu-Bin Li, Wen-Yuan Zhou, Xiang-Tian Kong, and Jian-Guo Tian, "Polarization dependence and independence of near-field enhancement through a subwavelength circle hole", Opt. Exp. 18, 5854 (2010).

[8] Liu Yongliang, Zang Weiping, Liu Zhibo, Qi Shengwen, Tian Jianguo, "Study on Z-scan characteristics of multilayer nonlinear media using coordinate transformation method" Optik 121, 2172 (2010).

[9] Jiajie Liang, Yongsheng Chen, Yanfei Xu, Zhibo Liu, Long Zhang, Xin Zhao, Xiaoliang Zhang, Jianguo Tian, Yi Huang, Yanfeng Ma, and Feifei Li, “Fabrication of Graphene-Based Flexible Electronic Circuits and Memory Cards Using Maskless Laser Direct-Writing,” ACS Appl. Mater. Interfaces 2, 3310-3317 (2010).

[10] Xiao-Qing Yan, Zhi-Bo Liu, Xiao-Liang Zhang, Wei-Ping Zang, and Jian-Guo Tian, “Modified elliptically polarized light Z-scan method for studying third-order nonlinear susceptibility components,” Opt. Express 18, 10270-10281 (2010).

[11] Xiao-Qing Yan, Zhi-Bo Liu, Shuo Shi, Wen-Yuan Zhou, and Jian-Guo Tian, “Analysis on the origin of the ultrafast optical nonlinearity of carbon disulfide around 800 nm,” Opt. Express 18, 26169-26174 (2010).

[12] Xiao-Liang Zhang, Zhi-Bo Liu, Xin Zhao, Wen-Yuan Zhou, and Jian-Guo Tian, “Nonlinear optical properties of hydroxyl groups modified multi-walled carbon nanotubes,” Chem. Phys. Lett. 494, 75-79 (2010).

 

 

Year 2009

[1] Shuqi Chen, Weiping Zang, Axel Schülzgen, Xin Liu, Jianguo Tian, Jerome V. Moloney, and Nasser Peyghambarian, "Modeling of Z-scan characteristics for one-dimensional nonlinear photonic bandgap materials", Opt. Lett., 34, 3665-3667 (2009).

[2] Xiao-Liang Zhang, Xin Zhao, Zhi-Bo Liu, Yong-Sheng Liu, Yong-Sheng Chen, Jian-Guo Tian，"Enhanced nonlinear optical properties of graphene-oligothiophene hybrid material", Opt. Exp., 17, 23959 (2009).

[3] Yudong Li, Chong Xing, Yasheng Ma, Jianguo Tian, Jingjun Xu and Qian Sun, ” Parallel femtosecond laser direct writing in silica glass by multiple beams with different wavefront curvature”, J. Opt. A: Pure Appl. Opt., 11, 045601 (2009).

[4] Zu-Bin Li, Yi-Hong Yang, Xiang-Tian Kong, Wen-Yuan Zhou and Jian-Guo Tian. "Fabry–Perot resonance in slit and grooves to enhance the transmission through a single subwavelength slit", J. Opt. A: Pure Appl. Opt., 11, 105002 (2009).

[5] Hua Cheng, Wei-Ping Zang, Zu-Bin Li, Wen-Yuan Zhou, and Jian-Guo Tian. "Nonparaxial Split-Step Method With Local One-Dimensional Scheme for Three-Dimensional Wide-Angle Beam Propagation", J. Lightw. Technol., 27, 2717-2723 (2009).

[6] Wei-Ping Zang, Hua Cheng, and Jian-Guo Tian. "A Novel Three-Dimensional Wide-Angle Beam Propagation Method Based on Split-Step Fast Fourier Transform", Chin. Phys. Lett., 26, 024202 (2009).

[7] Jianxing Li, Weiping Zang, Jianguo Tian, "Simulation of Gaussian laser beams and electron dynamics by Weniger transformation method", Opt. Express, 17, 4959-4969 (2009).

[8] Jian-Xing Li, Wei-Ping Zang,Ya-Dong Li, Jianguo Tian, "Acceleration of electrons by a tightly focused intense laser beam", Opt. Express, 17, 11850-11859 (2009).

[9] Zhi-Bo Liu, Yan-Fei Xu, Xiao-Yan Zhang, Xiao-Liang Zhang, Yong-Sheng Chen, Jian-Guo Tian, “Porphyrin and Fullerene Covalently Functionalized Graphene Hybrid Materials with Large Nonlinear Optical Properties”, J. Phys. Chem. B, 113, 9681 (2009).

[10] Zhibo Liu, Yan Wang, Xiaoliang Zhang, Yanfei Xu, Yongsheng Chen, Jianguo Tian, “Nonlinear optical properties of graphene oxide in nanosecond and picosecond regimes,” Appl. Phys. Lett., 94, 021902 (2009).

[11] Yanfei Xu, Zhibo Liu, Xiaoliang Zhang, Yan Wang, Jianguo Tian, Yi Huang, Yanfeng Ma, Xiaoyan Zhang, Yongsheng Chen* "A Graphene Hybrid Material Covalently Functionalized with Porphyrin: Synthesis and Optical Limiting Property", Adv Mater., 21, 1275 (2009).

[12] Yong-Sheng Liu, Jiao-Yan Zhou, Xiao-Liang Zhang, Zhi-Bo Liu, Xiang-Jian Wan, Jian-Guo Tian, Tuo Wang, Yong-Sheng Chen, “Synthesis, characterization and optical limiting property of covalently oligothiophene-functionalized graphene material”, Carbon, 47, 3113-3121 (2009).

[13] Xiaoyan Zhang, Zhibo Liu, Yi Huang, Xiangjian Wan, Jianguo Tian, Yanfeng Ma, Yongsheng Chen, “Synthesis, characterization and nonlinear optical property of graphene-C60 hybrid”, J. Nanosci. Nanotechnol, 9, 5752-5756 (2009).

[14] Xiao-Qing Yan, Zhi-Bo Liu, Xiao-Liang Zhang, Wen-Yuan Zhou, Jian-Guo Tian, “Polarization dependence of Z-scan measurement: theory and experiment,” Opt. Exp., 17, 6397-6406 (2009).

[15] Xin Lv, Yi Huang, Zhibo Liu, Jianguo Tian, Yan Wang, Yanfeng Ma, Jiajie Liang, Shipeng Fu, Xiangjian Wan, Yongsheng Chen, “Photoconductivity of Bulk Films Based on Graphene Sheets,” Small, 5, 1682 (2009).

[16] Xiao-Liang Zhang, Xin Zhao, Zhi-Bo Liu, Yong-Sheng Liu, Yong-Sheng Chen, Jian-Guo Tian"Enhanced nonlinear optical properties of graphene-oligothiophene hybrid material", Opt. Exp. 17(26), 23959 (2009).

[17] Yong-Sheng Liu, Jiao-Yan Zhou, Xiao-Liang Zhang, Zhi-Bo Liu, Xiang-Jian Wan, Jian-Guo Tian, Tuo Wang, Yong-Sheng Chen, “Synthesis, characterization and optical limiting property of covalently oligothiophene-functionalized graphene material”, Carbon 47, 3113-3121 (2009).

[18] Xiaoyan Zhang, Zhibo Liu, Yi Huang, Xiangjian Wan, Jianguo Tian, Yanfeng Ma, Yongsheng Chen, “Synthesis, characterization and nonlinear optical property of graphene-C60 hybrid”, J. Nanosci. Nanotechnol, 9(10), 5752-5756 (2009).

[19] Xiao-Qing Yan, Zhi-Bo Liu, Xiao-Liang Zhang, Wen-Yuan Zhou, Jian-Guo Tian, “Polarization dependence of Z-scan measurement: theory and experiment,” Opt. Exp. 17(8): 6397-6406 (2009).

[20] Xin Lv, Yi Huang, Zhibo Liu, Jianguo Tian, Yan Wang, Yanfeng Ma, Jiajie Liang, Shipeng Fu, Xiangjian Wan, Yongsheng Chen*, “Photoconductivity of Bulk Films Based on Graphene Sheets,” Small, 5(14), 1682 (2009).

[21] Jing Chengbin, Xu Xinguang, Zhang Xiaoliang, Liu Zhibo, Chu Junhao, "In situ synthesis and third-order nonlinear optical properties of CdS/PVP nanocomposite films" J. Phys. D 42, 075402 (2009).

[21] Zu-Bin Li, Yi-Hong Yang, Xiang-Tian Kong, Wen-Yuan Zhou, Jian-Guo Tian, “Fabry-Perot resonance in slit and grooves in the enhanced transmission through a single subwavelength slit,” J. Opt. A: Pure Appl. Opt. 11, 105002 (2009).
 

 

 

Year 2008

[1] Shuqi Chen, Weiping Zang, Axel Schülzgen, Jinjie Liu, Lin Han, Yong Zeng, Jianguo Tian, Feng Song, Jerome V. Moloney, and Nasser Peyghambarian. Implicit high-order unconditionally stable complex envelope algorithm for the time-dependent Maxwell’s equations. Opt. Lett., 2008, 33: 2755-2757.

[2] Shuqi Chen, Lin Han, Axel Schülzgen, Hongbo Li, Li Li, Jerome V. Moloney, and N. Peyghambarian. "Local electric field enhancement and polarization effects in a surface-enhanced Raman scattering fiber sensor with chessboard nanostructure". Optics Express, 2008, 16: 13016-13023.

[3] Yong-Liang Liu, Zhi-Bo Liu, Jian-Guo Tian, Yan Zhu, Jian-Yu Zheng, Effects of Metallization and Bromination on Nonlinear Optical Properties of Diphenylporphyrins, Opt. Commun. 2008, 281: 776-781.

[4] Zhi-Bo Liu, Jian-Guo Tian, Zhen Guo, Dong-Mei Ren, Feng Du, Jian-Yu Zheng, and Yong-Sheng Chen, Enhanced Optical Limiting Effects in Porphyrins Covalently Functionalized Single-Walled Carbon Nanotubes, Adv. Mater. 2008, 20(3), 511-515.

[5] Zu-Bin Li, Jian-Guo Tian, Wen-Yuan Zhou, Wei-Ping Zang, Chun-Ping Zhang, Enhanced and confined light transmission through a funnel-type aperture with a sub-wavelength outlet.Opt.Commun.,2008, 281, 2321-2325.

[6] Zhi-Bo Liu, Xiao-Qing Yan, Wen-Yuan Zhou, and Jian-Guo Tian, Evolutions of polarization and nonlinearities in an isotropic nonlinear medium, Opt. Exp. 2008, 16(11), 8144-8149.

[7] Zhi-Bo Liu; Wen-Yuan Zhou; Jian-Guo Tian; Zhen Guo; Dong-Mei Ren; Jian-Yu Zheng, Study on optical nonlinearities of porphyrin covalently functionalized single-wall carbon nanotubes, Proceedings of the SPIE - The International Society for Optical Engineering Volume : 7030 Pages: 703017 (8 pp.) Published: 2008

[8] Zu-Bin Li, Yi-Hong Yang, Xiang-Tian Kong, Wen-Yuan Zhou and Jian-Guo Tian, “Enhanced transmission through a subwavelength slit surrounded by periodic dielectric bars above the metal surface”, J. Opt. A, 10, 095202 (2008)

 

Year 2007

[1] 张冰 刘智波 陈树琪 周文远 臧维平 田建国 罗代兵 朱志昂 “新型卟啉衍生物反饱和吸收研究” 物理学报, 2007，in press.

[2] 柳永亮 刘智波 张冰 田建国 臧维平 周文远 宋峰 张春平 “二硫化碳宽带光限幅和非线性吸收特性研究” 光电子激光，，2007, in press.

[3] Yan Zhu, Yi-Zhou Zhu, Hai-Bing Song, Jian-Yu Zheng, Zhi-Bo Liu, Jian-Guo Tian, Synthesis and Crystal Structure of 21,23-Dithiaporphyrins and Their Nonlinear Optical Activities, Tetra. Lett. 2007, in press

[4] Zhi-Bo Liu, Yong-Liang Liu, Bin Zhang, Wen-Yuan Zhou, Jian-Guo Tian, Wei-Ping Zang, Chun-Ping Zhang, “Nonlinear absorption and optical limiting properties of carbon disulfide in short-wavelength region” J. Opt. Soc. Am. B, 2007, 24, 1101-1104.

[5] Shu-Qi Chen, Wei-Ping Zang, Zhi-Bo Liu, Wen-Yuan Zhou, Yong-Fa Kong, Jian-Guo Tian, "Method for measurements of second-order nonlinear optical coefficient based on Z-scan", Opt. Commun. 2007, 274, 213-217.

[6] Zhi-Bo Liu, Xiao-Qing Yan, Jian-Guo Tian, Wen-Yuan Zhou, and Wei-Ping Zang, Nonlinear ellipse rotation modified Z-scan measurements of third-order nonlinear susceptibility tensor, Opt. Exp. 2007, 15(20), 13351-13359.

[7] Zhi-Bo Liu, Yan Zhu, Yi-Zhou Zhu, Jian-Guo Tian, Jian-Yu Zheng, Study on Nonlinear Spectroscopy of Tetraphenylporphyrin and Dithiaporphyrin Diacids, J. Phys. Chem. B, 2007, 111(51), 14136-14142.

[8] Qing Ye, Yu Liu, Wen-yuan Zhou and Jian-guo Tian, Design and implementation of lens for fast biochip detection system, Proc. of SPIE Vol. 6722, 672247, (2007)

[9] 温宏胜 , 钱坤 , 田建国 , 张春平, “复合神经网络在混浊介质光散射参数确定中的应用”, 光电子激光, 18(2), 253-256

[10] 刘玮,孙云, 李凤岩, 何青, 李长健, 田建国, 利用Raman散射光谱研究铜铟镓硒薄膜表面的掺杂调节作用, 光谱学与光谱分析， 27(4): 2007，716-719

[11] Wei Liu, Yun Sun, Wei Li, Chang-Jian Li, Feng-Yan Li, and Jian-Guo Tian, Influence of different precursor surface layers on Cu (In1-xGax) Se2 thin film solar cells, Applied Physics A: Materials Science & Processing,88(4): 653-656 (2007).

 

Year 2006

[1] Zhi-Bo Liu, Jian-Guo Tian, Jian-Yu Zheng, Zhi-Yun Li, Shu-Qi Chen, and Yan Zhu. Active tuning of nonlinear absorption in a supramolecular zinc diphenylporphyrin-pyridine system. Opt. Exp. 2006, 14: 2770-2775.

[2] Zu-Bin Li, Jian-Guo Tian, Wen-Yuan Zhou, Wei-Ping Zang, and Chunping Zhang, Periodic dielectric bars assisted enhanced transmission and directional light emission from a single subwavelength slit, Optics Express,2006, 14, 8037-8042.

[3] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang. High-accuracy finite-difference beam-propagation method for cylindrical geometry. Appl. Phys. B, 2006, 82: 99-104.

[4] Zu-Bin Li, Jian-Guo Tian, Wen-Yuan Zhou, Zhi-Bo Liu, Wei-Ping Zang, and Chun-Ping Zhang. Role of evanescent waves in highly directional emission from a subwavelength slit in metal-dielectric layered films. Chin. Phys. Lett., 2006, 23(5): 1207-1210.

[5] Zu-Bin Li, Jian-Guo Tian, Wen-Yuan Zhou, Zhi-Bo Liu, Wei-Ping Zang. Effect of groove periodicity on the enhanced transmission through a single subwavelength slit. J. Opt. Soc. Am. B, 2006, 23: 1517-1523

[6] Zhi-Bo Liu, Yi-Zhou Zhu, Yan Zhu, Shu-Qi Chen, Jian-Yu Zheng, Jian-Guo Tian. Nonlinear absorption and nonlinear refraction of self-assembled porphyrins. J. Phys. Chem. B 110:15140-15145.

[7] Zhen Guo, Feng Du, Dongmei Ren, Yongsheng Chen, Jianyu Zheng, Zhibo Liu, and Jianguo Tian. Covalently Porphyrin Functionalized Single-Walled Carbon Nanotubes: A Novel Photoactive and Optical Limiting Donor-acceptor Nanohybrid. J. Mater. Chem. 16: 3021- 3030.

[8] 陈树琪 刘智波 臧维平 周文远 张春平 田建国. 大非线性相移下Z-扫描特性的研究. 物理学报 2006, 55: 1211-1217.

 

Year 2005

[1] Zhi-Bo Liu, Wen-Yuan Zhou, Jian-Guo Tian, Shu-Qi Chen, Wei-Ping Zang, Feng Song, Chun-Ping Zhang. Characteristics of co-existence of third-order and transient thermally induced optical nonlinearities in nanosecond regime. Opt.Commun. 2005, 245: 377-382.

[2] Shu-Qi Chen, Zhi-Bo Liu, Wei-Ping Zang, Jian-Guo Tian, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang. Study on Z-scan characteristics for large nonlinear phase shift. J. Opt. Soc. Am. B 2005, 22: 1191-1196.

[3] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang. The coordinate transformation and coordinate mapping to numerical simulation of Z-scan measurements. Opt. Commun 2005, 244: 71-77.

[4] Zang Wei-Ping, Tian Jian-Guo, Liu Zhi-Bo, Zhou Wen-Yuan, Song Feng, Zhang Chun-Ping. Effect of coupling between linear absorption and nonlinear absorption on Z-scan measurements. Chin. Phys. 2005, 14: 546.

[5] Wei-Ping Zang, Gian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang, Modified local one-dimensional beam-propagation method based on the Douglas scheme. Opt. Commun. 2005, 256: 210-215.

[6] Li Zu-Bin, Tian Jian-Guo, Liu Zhi-Bo, Zhou Wwen-Yuan, Zhang Chun-Ping. Enhanced light transmission through a single subwavelength aperture in layered films consisting of metal and dielectric. Optics Express 2005, 13: 9071.

[7] 杨新江 臧维平 田建国 刘智波 周文远 张春平 张光寅. 近top-hat光束Z扫描理论分析. 物理学报 2005, 54: 2738.

 

Year 2004

[1] Zhi-Bo Liu, Jian-Guo Tian, Wei-Ping Zang, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang, Flexible alteration of optical nonlinearities of iodine charge-transfer complexes in solutions. Opt. Lett. 2004, 29: 1099-1101.

[2] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang. Analytic solutions to z-scan characteristics of thick media with nonlinear refraction and nonlinear absorption. J. Opt. Soc. Am. B 2004, 21: 63-66.

[3] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Feng Song, Chun-Ping Zhang, Jing-Jun Xu. Accurate determination of nonlinear refraction and nonlinear absorption by single z-scan method. J. Opt. Soc. Am. B 2004, 21: 349-356.

[4] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Feng Song and Chun-Ping Zhang. Local one-dimensional approximation for fast simulation of Z-scan measurements with an arbitrary beam, Appl. Opt. 2004 43: 4408-4414.

[5] Weiping Zang, Jianguo Tian, Zhibo Liu, Wenyuan Zhou, Feng Song, Jingjun Xu, Analysis of z-scan of thick media with nonlinear refraction and absorption for elliptic Gaussian beam by variational approach. Opt. Commun 2004, 237: 221-227.

[6] Zang Wei-Ping, Tian Jian-Guo, Liu Zhi-Bo, Zhou Wen-Yuan, Song Feng, Zhang Chun-Ping. The coordinate transformation for fast simulation of z-scan measurements. Chin. Phys. Lett. 2004, 21: 662-665.

[7] 周文远 田建国 臧维平 刘智波 张春平 张光寅. 克尔介质中瞬态热光非线性效应的作用.学报 2004, 53: 620.

[8] 陈树琪 刘智波 周文远 田建国 臧维平 宋峰 张春平. 克尔介质中脉冲宽度对瞬态热光非线性效应的影响. 物理学报2004, 53: 3577-3582.

[9] 臧维平,田建国,刘智波,周文远,梅 灿,宋峰,张春平, 串级结构Z扫描特性的分析, 物理学报2004, 53: 1820-1825
　　　　　　　　　　
[10] 臧维平 刘智波 周文远 田建国 张春平 张光寅. 厚光学非线性介质非线吸收的理论分析. 红外与毫米波学报 2004, 23: 229-232

 

Year 2003

[1] Zhibo Liu, Weiping Zang, Jianguo Tian, Wenyuan Zhou, Chunpin Zhang, Guangyin Zhang. Analysis of Z-scan of thick media with high-order nonlinearity by variational approach. Opt. Commun. 2003, 219: 411-419.

[2] Zhi-Bo Liu, Jian-Guo Tian, Wei-Ping Zang, Wen-Yuan Zhou, and Chun-Ping Zhang Jian-Yu Zheng, Ying-Chun Zhou, Hua Xu, Large optical nonlinearities of new organophosphorus fullerene derivatives. Appl. Opt. 2003, 42: 7072-7076.?

[3] Liu Zhi-Bo, Tian Jian-Guo, Zang Wei-Ping, Zhou Wen-Yuan, Zhang Chun-Ping, Zhang Guang-Yin. Influence of nonlinear absorption on Z-scan measurements of nonlinear refraction. Chin. Phys. Lett. 2003, 20: 509-512.

[4] Liu Zhi-Bo, Tian Jian-Guo , Zang Wei-Ping, Zhou Wen-Yuan, Zhang Chun-Ping. Large enhancement of optical nonlinearities of new organophosphorus fullerene derivative. ?Chin. Phys. Lett. 2003, 20: 1744-1747.

[5] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Chun-Ping Zhang, Guang- Yin Zhang. Comparison of the solutions from a novel variational method with numerical results for the study of beam propagation in a Kerr medium with nonlinear absorption. Opt. Lett. 2003, 28: 722-724.

[6] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Chun-Ping Zhang, Guang-Yin Zhang. Study on Z-scan characteristics of cascaded nonlinear media. Appl. Phys. B 2003, 77: 529.

[7] Wei-Ping Zang, Jian-Guo Tian, Zhi-Bo Liu, Wen-Yuan Zhou, Chun-Ping Zhang, Guang- Yin Zhang. Variational analysis of z scan of thick medium with an elliptic Gaussian beam. Appl. Opt. 2003, 42: 2219-2225.

[8] Zang Wei-Ping, Tian Jian-Guo, Liu Zhi-Bo, Zhou Wen-Yuan, Zhang Chun-Ping, Zhang Guang-Yin. Z-scan Characteristics of Cascading Nonlinear Media. Chin. Phys. Lett. 2003, 20: 1067-1070.

[9] Yudong Li, Qian, Jianguo Tian and Guangyin Zhang, “Optical Boolean logic based on degenerate multi-wave mixing in bR film”, Optical Materials 2003, 23 (1-2): 285-288.

 

Year 2002 and before

[1] 周文远 田建国 臧维平 张春平 张光寅 王肇圻 "厚非线性介质瞬态热光非线性效应的研究" 物理学报，2002, 51(2), 2623.

[2] Jian-Guo Tian,Chunping Zhang, and Guangyin Zhang, 1991, Anomalous Hall effect and the anomalous infrared absorption in n-type bulk Hg0.8Cd0.2Te, Appl. Phys. Lett., 59(20),2591

[3] Tian Jianguo, Zhang Chunpng, and Zhang Guangyin, 1991, A simple and effective method measuring thermooptic coefficient of materials, Chinese Phys. Lett., 8(12),625

[4] Jian-Guo Tian, Chunping Zhang, and Guangying Zhang, 1992, The origin of optical nonlinearities of Chinese tea, Optik, 90(1),1

[5] Jian-Guo Tian, Chunping Zhang, and Guangyin Zhang, 1993, Position dispersion and optical limiting resulting from thermally induced nonlinearities in chinese tea liquids, Appl.Opt., 32(33), 6628

[6] Tian Jianguo, Zang Wei-Ping, Chen Jian, Ma Chao, and Zhang Guangyin, 1994, "A modified Position Dispersion' method for non-linear refraction index measurement," Chinese Phys. Lett.,11(1), 20

[7] Zang Weiping, Tian Jianguo, Zhang Guangyin, 1994, Theoretical analysis on self-defocusing mode-locking in a ring resonator, Chinese Phys. Lett. 11(2),79

[8] Tian Jianguo, Zang Weiping, and guangyin Zhang, 1995,? The modified Z-scan method with simplicity and enhanced sensitivity, Optik , 98(4),143

[9] Jian-Guo Tian, Wei-Ping Zang, and Guangyin Zhang, 1995, Self-consistency and beam propagation to Kerr lens mode-locking, Opt. Commun., 117, 497

[10] Jian-Guo Tian, Wei-Ping Zang, Cun-Zhou zhang, and Guangyin Zhang, "Analysis of beam propagation in thick nonlinear media," Appl.Opt., 34(21), 4331, (1995)

[11] L.H. Acioli, Jian-Guo Tian, C.B. de Araujo, 1997,? Violet-blue emissions due to frequency up-conversion in? Nd3+-doped fluoroindate glasses, J. Lumin., 72-74, 68

[12] Jian-Guo Tian, Hao-Hua Wang, Wen-Yuan Zhou, Tao Li, Chunping Zhang, and Guangyin Zhang, Analysis of the influence of thermal effect on Z-scan measurements with nanosecond pulse laser, Chin. Phys. Lett., 17(7), 510(2000)

[13] Tian Jian-Guo, zhou Wen-Yuan et al., "Analysis on optimizing optical limiting in infrared focused optical-detecting systems," J. Infrared Milim. Waves, 19(5),327 (2000)

[14] 臧维平 田建国 张光寅, 1994, 厚光学非线性介质 Z-扫描的理论分析, 物理学报,43(3), 476

[15] Jian-Guo Tian, Wei-Ping Zang and Guanguin Zhang, 1994, Two modified Z-scan methods for determination of nonlinear-optical index with enhanced sensitivity, Opt. Commun., 107, 415

[16] 臧维平 田建国 张光寅, 1994, 非线性镜锁模理论, 物理学报,43(5), 742

[17] 田建国, 臧维平 张光寅,1994,利用改进的Z-scan方法确定热致非线性, 物理学报, 43(9), 1460

[18] 田建国 臧维平 张光寅, 1994, 光束在厚非线性光学材料中的传播的变分法分析, 物理学报, 43(10), 1712

[19] 田建国 张春平 张光寅,1991, Si单晶的光学限制特性,半导体学报,12(10),509

 

 

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