Yuntuan FANG

 

Name  Fang Yuntuan
Title and Position  Professor  ,master supervisor 
Research Interests  Design of new photonic device; Applications of metamaterial in optical circuit
Office Phone  0511-88797508-505
E-mail  fangyt@ujs.edu.cn
Curriculum Vitae

Yuntuan Fang received his master degree in Nanjing Normal University, China, in 2000. In 2006, he worked in Royal Institute of Technology in Sweden as a scholar visitor. Since 2011, he has worked in Jiangsu University as a professor. From 2003 to now, he has been doing researching work on optics and physics. He has published over 100 papers in refereed journals, some of which are famous journals, such as Physical Review A, Optics Communications, Applied physics B, European Physical Journal D.

Teaching and research achievements

Selected Papers SINCE 2000

1Yun-tuan Fang, Na Zhu, Jun Zhou, “Orthogonal decomposition of elliptically polarized light through resonators composed of magnetic film” Journal of Magnetism and Magnetic Materials 324 (2012) 2645–2648
2 Y.-T. Fang and J. Zhou, “Resonator with orthogonally polarized dual wavelength
output based on layered anisotropic metamaterials” Eur. Phys. J. Appl. Phys. 57: 20502(2012)
3Yun-tuan Fang, Jun Zhou and Tian-yi Wu, “Ultra-compact resonator with orthogonally polarized dual-wavelength output based on layered epsilon-negative and anisotropic materials” Journal of Russian Laser Research 32, 604 (2011) (SCI)
4Yun-tuan Fang, and Zhong-cheng Liang, “Tunable phase compensator based on one-dimensional photonic crystals with single-negative materials”, European Physical Journal D 61, 725–729 (2011) (SCI)
5Hong Wang, Yun-tuan Fang, “Achieving Transparent Photonic Band in Regular One-Dimensional Photonic Crystal”, J. Infrared. Milli Terahz. Waves 32,47–54 (2011) (SCI)
6Zhili Lin,Yuntuan Fang, Jiandong Hu, Chunxi Zhang, “On the FDTD Formulations for Modeling Wideband Lorentzian Media”, IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION 59,1338 (2011)  (SCI)
7Yun-tuan Fang, Zhong-cheng Liang, “Unusual transmission through usual one-dimensional photonic crystal in the presence of evanescent wave”, Optics Communications 283,2102–2108 (2010) (SCI)
8Guanxia Yu, Yun-tuan Fang, Achieving optical bistability through ultra-compact metal-dielectric structure, Optics & Laser Technology. 43: 36-39(2011)(SCI)
9YUN-TUAN FANG, ZHENG-BIAO OUYANG, “POWER-LOSSLESS CHANNEL SWITCH BASED ON LATTICE SOLITONS”, Modern Physics Letters B 24, 297–304 (2010) (SCI)
10Y.-T. Fang, Z.-B. Ouyang, and G. Qiu, “Ultra-compact spatial filtering with both wide spatial-frequency bandwidth and high transmittance using single-negative material”, Eur. Phys. J. Appl. Phys. 51, 10701 (2010) (SCI)
11Yun-tuan Fang, Zheng-biao Ouyang, “Transmission spectrum and potential applications of periodic structure composed of single-negative material and anisotropic material”, Optics and Lasers in Engineering 48, 1034–1037(2010) (SCI)
12Yun-tuan Fang, and Zhong-cheng Liang, “POLARIZATION-INDEPENDENT NARROW BANDPASS FILTER AND NARROW TRANSMISSION-ANGLE FILTER BASED ON PHOTONIC HETEROSTRUCTURES COMPOSED OF SINGLE-NEGATIVE MATERIALS”, Journal of Russian Laser Research 31, 301 (2010)
13Yun-Tuan Fang, “Direction and frequency filter basing on an ultra-compact structure consisting of dielectric films”, Optics & Laser Technology 42,850–853(2010) (SCI)
14H. Wang, Y.-T. Fang, “Tunable multi-channeled filter based on ultra-compact coupled-resonators”, Eur. Phys. J. Appl. Phys. 52, 30703 (2010) (SCI)
15Yuntuan Fang and Jun Zhou, “Interaction of (1+1)-dimensional dipole solitons in optical lattice” Journal of Russian Laser Research 30, 260-266(2009)(SCI)
16Yun-tuan Fang and Zheng-biao Ouyang, “An approximately omnidirectional defect mode of the TE wave from one-dimensional photonic crystals doped by negative-index materials” Journal of Optics A: Pure and Appllied Optics 11, 045103 (2009)
17Yuntuan Fang, Sailing He, “Transparent structure consisting of metamaterial layers and matching layers”, Physical Review A 78, 023813-1~6 (2008) (SCI)
18Yuntuan Fang, and Jun Zhou, “Effects of third-order dispersion on soliton switching in fiber nonlinear directional couplers,” Optik 119, 86-89(2008) (SCI)
19Yuntuan Fang, Zhili Lin, “ENHANCEMENT OF THE DEFECT FIELD OF ONE-DIMENSIONAL PHOTONIC CRYSTALS CONTAINING ε- AND μ-NEGATIVE LAYERS,” Journal of Russian Laser Research 29, 447-452 (2008) (SCI)
20Yu-lin Chen, Yun-tuan Fang, “STUDY OF SUPERLUMINAL-PULSE PROPAGATION IN ONE-DIMENSIONAL PHOTONIC CRYSTALS BY THE FDTD METHOD,” Journal of Russian Laser Research 29, 176-183(2008) (SCI)
21Yuntuan Fang, Zhengbiao Ouyang, “Realization of absolute negative refraction index by a photonic crystal using anisotropic dielectric material, ”  Chinese Optics Letters 6, 57-60 (2008) (SCI)
22Y. T. Fang and J. Zhou, and E.Y.B. Pun, “High-Q filters based on one-dimensional photonic crystals using epsilon-negative materials,” Applied Physics B: Lasers and Optics 86, 587-591(2007) (SCI)
23 Fei Xu, Yun-tuan Fang, “Standing wave localized within one-dimensional photonic crystal with defect,” Journal of Russian Laser Research 28, 304-309(2007) (SCI)
24 Yun-tuan Fang, and Jun Zhou, “Light pulse propagation in one-dimensional photonic crystal: An FDTD analysis,” Journal of Russian Laser Research 28, 372-376(2007) (SCI)
25Yuntuan Fang, Tinggen Shen, “Diverse imaging of photonic crystal by the effects of channeling and partial band gap,” Optik 118, 100-102 (2007 )(SCI)
26Y. T. Fang and J. Zhou, “A new kind of collimator made of photonic crystal with negative refraction,” J. Opt. A: Pure Appl. Opt. 8, 114 (2006). (SCI)
27Y. T. Fang and J. Zhou, “A new kind of light splitter made of a photonic crystal using the effect of a partial bandgap,” J. Opt. A: Pure Appl. Opt. 8, 507 (2006). (SCI)
28Y. T. Fang and Q. Zhou, “The imaging properties of photonic crystal slabs with effective negative refraction indexes,” Applied Physics B: Lasers and Optics 83, 587-594(2006)(SCI)
29Y. Fang, H. Sun, and T. Shen, “New evidences of negative refraction in photonic crystals”, Optical Materials 28, 1156-1159 (2006 )(SCI)
30Yun-tuan Fang and Zhou Jun, “Light collimator made of photonic crystal by partial band gap”, The Euopean Physics Journal-Applied Physics 35, 190(2006)(SCI)
31FANG Yun-Tuan(方云团), SHEN Ting-Gen(沈廷根),  Multi-imaging by Photonic Crystal Slab using Negative Refraction, Chinese Physics Letters 22, 949-951(2005) (SCI)
32FANG Yun-Tuan(方云团), Sun Hai-Jin (孙海金),  Imaging by Photonic Crystal Using Reflection and Negative Refraction, Chinese Physics Letters 22, 2674-2676 (2005)(SCI)
33Y. Fang, Imaging by photonic crystal without negative refraction, Laser Physics Letters 2, 502-505(2005) (SCI)
34Yuntuan Fang, Tinggen Shen, The Coupling of Two Defect Modes in Photonic Crystal Fibers, Chinese Optics Letters 3, 261-263(2005) (EI)
35 Fang Yun-tuan, Shen Ting-gen, Three absolute photonic gaps from 2d square compound lattices, Cryst. Res. Technol. 39, 434-438(2004) (SCI)
36. Fang Yun-tuan, A general calculating method of photonic band gaps of two dimensional compound lattices. Laser Physics Letters 1, 383-386(2004 )(SCI)
37. Fang Yun-tuan, Shen Ting-gen, Acoustic wave propagation in layered spherical structures,phys. stat. sol. (b) 241, 818–828 (2004 ) (SCI)
38. Yuntuan FANG, Min ZHU, Yongshun WANG, Single-Wall Carbon Nanotube Growth from Graphite Layers-a Tight -Binding Molecular Dynamics Simulation, Journal of MATERIALS SCIENCE & TECHNOLOGY 19, 637-639(2003)(SCI)
39. Fang Yun-tuan, Shen Ting-gen, Absolute photonic band gap from 2D square compound lattices, Optica Applicata, Vol. XXXIII, 655-660(2003) (SCI)

 

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