王志

1976年10月出生，1998年7月獲天津大學工程力學專業和無線電技術專業工學雙學士學位，2001年3月在天津大學機械工程學院獲固體力學專業工學碩士學位，2005年7月獲南開大學光學專業理學博士學位。從2005年7月至2007年6月在南開大學信息學院進行博士后研究工作，2006年9月到11月在英國巴斯大學進行學術訪問，2007年7月留南開大學光學所任教。

研究方向：現代光通信，光纖光子學，光子晶體光纖。

主持的科研項目：

國家自然科學基金項目“基於光子帶隙光纖的可調諧光電子器件” (Grand No. 50802044) （在研）

教育部博士點基金青年教師項目“基於液晶填充雙芯光子帶隙光纖的可調光電子器件”(Grand No. )（在研）

中國博士后科學基金資助項目“多芯光子帶隙光纖的耦合機制及其在光子器件中的應用的研究”(Grand No. 20060400687)

參加的科研項目：

國家重點基礎研究發展計劃（科技部973計劃）項目：“基於微結構光纖的新型功能器件、異質兼容結構與光電子集成” （編號： 2010CB327605)(在研）

國家973計劃項目“基於微結構光纖的光電子功能器件的創新與研究” (Grand No. 2003CB314906)

國家自然科學基金項目“全固光子帶隙光纖和光纖光柵研究”(Grand No. 10774077)（在研）

國家自然科學基金項目“新型量子點注入光子晶體光纖激光器研究” (Grand No. 10674074)（在研）

國家自然科學基金項目“高增益短長度的高效新型光纖拉曼放大器研究”(Grand No. 60407005)

獲獎：

董孝義, 袁樹忠, 劉艷格, 開桂雲, 王志, 呂可誠, 呂福雲, 楊石泉, 馮新煥, 李乙鋼, 李勇男, 陳勝平,“光纖激光激射理論與實驗研究”2008年天津市自然科學一等獎。

已授權發明專利：

開桂雲；王志；岳洋；劉艷格；袁樹忠；董孝義, 寬頻單偏振單模雙芯光子晶體光纖

開桂雲；董孝義；王志；張偉剛；劉艷格；袁樹忠；張春書；金龍, 空氣傳導雙芯光子帶隙光纖,

代表論文

Z. Wu, Z. Wang, Y. Liu, et al., "Mechanism and characteristics of long period fiber gratings in simplified hollow-core photonic crystal fibers," Optics Express, vol. 19, pp. 17344-17349, 2011.

Z. Sun, Y. Liu, Z. Wang, B. Tai, T. et al., "Long period grating assistant photonic crystal fiber modal interferometer," Optics Express, vol. 19, pp. 12913-12918, 2011.

X. Zheng, Y. Liu, Z. Wang, et al., "Tunable Single-Polarization Single-Mode Photonic Crystal Fiber Based on Liquid Infiltrating," IEEE Photonics Technology Letters, vol. 23, pp. 709-711, 2011.

B. Y. Tai, Z. Wang, Y. G. Liu, et al., "High order resonances between core mode and cladding supermodes in long period fiber gratings inscribed in photonic bandgap fibers," Optics Express, vol. 18, 2010.

J. B. Xu, Y. G. Liu, Z. Wang, et al., "Simultaneous force and temperature measurement using long-period grating written on the joint of a microstructured optical fiber and a single mode fiber," Applied Optics, vol. 49, pp. 492-496, 2010.

T. T. Han, Y. G. Liu, Z. Wang, et al., "Avoided-crossing-based ultrasensitive photonic crystal fiber refractive index sensor," Optics Letters, vol. 35, pp. 2061-2063, 2010.

Q. Shi, Z. Wang, L. Jin, et al., "A hollow-core photonic crystal fiber cavity based multiplexed Fabry-Perot interferometric strain sensor system," IEEE Photonics Technology Letters, vol. 20, pp. 1329-1331, 2008.

L. Jin, Z. Wang, Y. G. Liu, et al., "Ultraviolet-inscribed long period gratings in all-solid photonic bandgap fibers," Optics Express, vol. 16, pp. 21119-21131, 2008.

Q. Shi, F. Y. Lv, Z. Wang, et al., "Environmentally stable Fabry-Perot-type strain sensor based on hollow-core photonic bandgap fiber," IEEE Photonics Technology Letters, vol. 20, pp. 237-239, 2008.

J. B. Du, Y. G. Liu, Z. Wang, et al., "Electrically tunable Sagnac filter based on a photonic bandgap fiber with liquid crystal infused," Optics Letters, vol. 33, pp. 2215-2217, 2008.

J. B. Du, Y. G. Liu, Z. Wang, et al., "Liquid crystal photonic bandgap fiber: different bandgap transmissions at different temperature ranges," Applied Optics, vol. 47, pp. 5321-5324, 2008.

J. B. Du, Y. G. Liu, Z. Wang, et al., "Thermally tunable dual-core photonic bandgap fiber based on the infusion of a temperature-responsive liquid," Optics Express, vol. 16, pp. 4263-4269, 2008.

J. B. Du, Y. G. Liu, Z. Wang, et al., "Characteristics of photonic bandgap fibres with hollow core's inner surface coated by a layer material," Chinese Physics Letters, vol. 25, pp. 164-167, 2008.

Y. Yue, G. Kai, Z. Wang, et al., "Highly birefringent elliptical-hole photonic crystal fiber with squeezed hexagonal lattice," Optics Letters, vol. 32, pp. 469-471, 2007.

Z. Wang, T. Taru, T. A. Birks, J. C. Knight, et al., " Coupling in dual-core photonic bandgap fibers: theory and experiment ", Opt. Express, 15, pp.4795-4803, 2007.

Z. Wang, Y. G. Liu, G. Y. Kai, et al., "Directional couplers operated by resonant coupling in all-solid photonic bandgap fibers," Optics Express, vol. 15, pp. 8925-8930, 2007.

L. Jin, Z. Wang, Q. Fang, et al., "Spectral characteristics and bend response of Bragg gratings inscribed in all-solid bandgap fibers," Optics Express, vol. 15, , 2007.

L. Jin, Z. Wang, Q. Fang, et al., "Bragg grating resonances in all-solid bandgap fibers," Optics Letters, vol. 32, pp. 2717-2719, 2007.

Q. Fang, Z. Wang, G. Y. Kai, et al., "Proposal for all-solid photonic bandgap fiber with improved dispersion characteristics," IEEE Photonics Technology Letters, vol. 19, pp.

2007.

Q. Fang, Z. Wang, L. Jin, et al., "Dispersion design of all-solid photonic bandgap fiber," Journal of the Optical Society of America B-Optical Physics, vol. 24, pp. 2899-2905, 2007.

C. S. Zhang, G. Y. Kai, Z. Wang, T. T. Sun, C. Wang, Y. G. Liu, J. F. Liu, W. G. Zhang, S. Z. Yuan, and X. Y. Dong, et al., "Design of tunable bandgap guidance in high-index filled microstructure fibers," Journal of the Optical Society of America B-Optical Physics, vol. 23, pp. 782-786, 2006.

Y. Yue, G. Y. Kai, Z. Wang, et al., "Broadband single-polarization single-mode photonic crystal fiber coupler," IEEE Photonics Technology Letters, vol. 18, pp. 2032-2034, 2006.

Y. Yue, G. Y. Kai, Z. Wang, et al., "Highly birefringent elliptical-hole photonic crystal fiber with two big circular air holes adjacent to the core," IEEE Photonics Technology Letters, vol. 18, pp. 2638-2640, 2006.

Y. Yue, G. Y. Kai, Z. Wang, et al., "Phase and group modal birefringence of an index-guiding photonic crystal fibre with helical air holes," Optics Communications, vol. 268, pp. 46-50, 2006.

J. G. Liu, L. Xue, Z. Wang, et al., "Large anomalous dispersion at short wavelength and modal properties of a photonic crystal fiber with large air holes," IEEE Journal of Quantum Electronics, vol. 42, pp. 961-968, 2006.

C. S. Zhang, G. Y. Kai, Z. Wang, et al., "Tunable highly birefringent photonic bandgap fibers," Optics Letters, vol. 30, pp. 2703-2705, 2005.

Z. Wang, G. Y. Kai, Y. G. Liu, et al., "Coupling and decoupling of dual-core photonic bandgap fibers," Optics Letters, vol. 30, pp. 2542-2544, 2005.

C. S. Zhang, G. Y. Kai, Z. Wang, et al., "Transformation of a transmission mechanism by filling the holes of normal silica-guiding microstructure fibers with nematic liquid crystal," Optics Letters, vol. 30, pp. 2372-2374, 2005.