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****************************** 2019年 *******************************


  • ◆Haotian Cheng, Yue Ge, Xiaoyong Hu*, Xinxiang Niu, Feifan Wang, Wei Gao, Qihuang Gong, “Plasmonic router based on spin-orbital interaction”, Optics Communications 433, 256-261 (2019).

    ****************************** 2018年 *******************************


  • ◆Feifan Wang, Xiaoyong Hu*, Xinxiang Niu, Jingya Xie, Saisai Chu, Qihuang Gong, “Low-dimensional materials-based field-effect transistors”, Journal of Materials Chemistry C 6, 924 (2018). (被选为同期封底论文)
  • ◆Yi Zhou, Xiaoyong Hu*, Chong Li, Hong Yang, Qihuang Gong, “All-Optical Tunable Dual Fano Resonance in Nonlinear Metamaterials in Optical Communication Range”, Journal of Modern Optics 65, 206 (2018).
  • ◆Chong Li, Xiaoyong Hu*, Wei Gao, Yutian Ao, Saisai Chu, Hong Yang, Qihuang Gong, “Thermo-optical tunable ultracompact chip-integrated one-dimensional photonic topological insulator”, Advanced Optical Materials 6, 1701071 (2018). (被Materials Views China报道)
  • ◆Yi Zhou, Xiaoyong Hu*, Wei Gao, Hanfa Song, Saisai Chu, Hong Yang, Qihuang Gong, “Photoluminescence enhancement of monolayer tungsten disulfide in complicated plasmonic microstructures”, Optics & Laser Technology 102, 268 (2018).
  • ◆Jingya Xie, Xiaoyong Hu*, Feifan Wang, Yutian Ao, Wei Gao, Hong Yang, Qihuang Gong, “Ultralow-power on-chip all-optical Fano diode based on uncoupled nonlinear photonic-crystal nanocavities”, Journal of Optics 20, 034004 (2018).
  • ◆Wei Gao, Xiaoyong Hu*, Chong Li, Jinghuan Yang, Zhen Chai, Jingya Xie, Qihuang Gong, “Fano-resonance in one-dimensional topological photonic crystal heterostructure”, Optics Express 26, 8634 (2018).
  • ◆Xinxiang Niu, Xiaoyong Hu*, Saisai Chu, Qihuang Gong, “Epsilon-near-zero photonics: a new platform for integrated devices”, Advanced Optical Materials 6, 1701292 (2018).
  • ◆Jingya Xie, Xiaoyong Hu*, Chong Li, Feifan Wang, Peizhen Xu, Limin Tong, Hong Yang, Qihuang Gong, “On-chip electro-optic and opto-electric dual modulation based on ZnO nanowire coated photonic-crystal nanocavity”, Advanced Optical Materials 6, 1800374 (2018). (被选为AOM同期封底文章)
  • ◆Zhen Chai, Xiaoyong Hu*, Yifan Zhao, You Wu, Shufang Wang, Hong Yang, Qihuang Gong, “Structural surface wave properties of amorphous Bi2Te3 by pulsed laser deposition in the visible and near-infrared regions”, AIP Advances 8, 065324 (2018).
  • ◆Yutian Ao, Xiaoyong Hu*, Chong Li, Yilong You, Qihuang Gong, “Topological properties of coupled resonator array based on accurate band structure”, Physical Review Materials 2, 105201 (2018).
  • ◆You Wu, Xiaoyong Hu, Qihuang Gong, “Reconfigurable topological states in valley photonic crystals”, Physical Review Materials 2, 122201(R) (2018).

    ****************************** 2017年 *******************************


  • ◆Feifan Wang, Xiaoyong Hu*, Hanfa Song, Chong Li, Hong Yang, Qihuang Gong, Ultralow-power all-optical logic data-distributor based on resonant excitation enhancing nonlinearity via up-conversion radiative-transfer, Advanced Optical Materials 5, 1700360 (2017). (被选为AOM同期封面文章,并被Advances in Engineering专题报道)
  • ◆You Wu, Chong Li, Xiaoyong Hu*, Yutian Ao, Yifan Zhao, Qihuang Gong, Applications of topological photonics in integrated photonic devices, Advanced Optical Materials 5, 1700357 (2017). (2017).
  • ◆Jingya Xie, Xinxiang Niu, Xiaoyong Hu*, Feifan Wang, Zhen Chai, Hong Yang, Qihuang Gong, Ultracompact all-optical full adder and half adder based on nonlinear plasmonic nanocavities, Nanophotonics 6, 1161 (2017).
  • ◆Zhen Chai, Xiaoyong Hu*, Feifan Wang, Chong Li, Yutian Ao,You Wu, Kebin Shi, Hong Yang, Qihuang Gong, Ultrafast on-chip remotely-triggered all-optical switching based on epsilon-near-zero nanocomposites, Laser & Photonics Reviews 11, 1700042 (2017).
  • ◆Xiaoyu Yang, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Ultracompact all-optical logic gates based on nonlinear plasmonic nanocavities, Nanophotonics 6, 365 (2017).
  • ◆Zhen Chai, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Chip-integrated all-optical diode based on nonlinear plasmonic nanocavities covered with multicomponent nanocomposite, Nanophotonics 6, 329 (2017).
  • ◆Chong Li, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Unidirectional transmission in 1D nonlinear photonic crystal based on topological phase reversal by optical nonlinearity, AIP Advances 7, 025203 (2017).
  • ◆Zhen Chai, Xiaoyong Hu*, Feifan Wang, Xinxiang Niu, Jingya Xie, Qihuang Gong, Ultrafast all-optical switching, Advanced Optical Materials 5, 1600665 (2017). (被选为AOM当月下载量最多的论文之一)


  • ****************************** 2016年 *******************************


  • ◆Zhen Chai, Yu Zhu, Xiaoyong Hu*, Xiaoyu Yang, Zibo Gong, Feifan Wang, Hong Yang, Qihuang Gong, On-chip optical switch based on plasmon-photon hybrid nanostructure-coated multicomponent nanocomposite, Advanced Optical Materials 4,1159 (2016).(被选为同期封面文章、2016年度AOM最佳论文之一,并被Materials Views China报道)
  • ◆Feifan Wang, Zibo Gong, Xiaoyong Hu*, Xiaoyu Yang, Hong Yang, Qihuang Gong, Nanoscale on-chip all-optical logic parity checker in integrated plasmonic circuits in optical communication range, Scientific Reports 6, 24433 (2016).
  • ◆Zhen Chai, Xiaoyong Hu*, Hong Yang, Qihuang Gong, All-optical tunable on-chip plasmon-induced transparency based on two surface-plasmon-polaritons absorption, Applied Physics Letters 108, 151104 (2016).
  • ◆Zibo Gong, Chong Li, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Active control of highly efficient third-harmonic generation in ultrathin nonlinear metasurfaces, Optical Materials 60, 552 (2016).
  • ◆Zhen Chai, Xiaoyong Hu*, Chong Li, Hong Yang, Qihuang Gong, “On-Chip Multiple Electromagnetically Induced Transparencies in Photon−Plasmon Composite Nanocavities”, ACS Photonics 3, 2068 (2016).
  • ◆Cuicui Lu, Yong-Chun Liu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Integrated ultracompact and broadband wavelength demultiplexer based on multi-component nano-cavities, Scientific Reports 6, 27428 (2016).

    ****************************** 2015年 *******************************


  • ◆Yu Zhu, Xiaoyong Hu*, Hong Yang,Qihuang Gong, Switchable cross-polarization conversion in ultrathin metasurfaces, Journal of Optics 17, 105101 (2015).(被IOP Science 报道)
  • ◆Yu Zhu, Xiaoyong Hu*, Zhen Chai, Hong Yang, Qihuang Gong, Active control of chirality in nonlinear metamaterials, Applied Physics Letters 106, 091109 (2015)
  • ◆Xiaoyu Yang, Jinghuan Yang, Xiaoyong Hu*, Yu Zhu, Hong Yang and Qihuang Gong, Multilayer-WS2:ferroelectric composite for ultrafast tunable metamaterial-induced transparency applications, Applied Physics Letters 107, 081110 (2015)
  • ◆Yi Zhou, Xiaoyu Yang, Xiaoyong Hu*, Hong Yang, Qihuang Gong,Multilayer-MoS2-microsheet/(Nano-Au:LiNbO3) for all-optical tunable metamaterial-induced transparency, Journal of Optics,17, 105102 (2015).
  • ◆Cuicui Lu, Xiaoyong Hu*, Kebin Shi, Qin Hu, Rui Zhu, Hong Yang, Qihuang Gong, An actively ultrafast tunable giant slow-light effect in ultra-thin nonlinear metasurfaces, Light:Science & Applications, 4, e302 (2015).(被National Science Review报道)


  • ****************************** 2014年 *******************************


  • ◆Cuicui Lu, Xiaoyong Hu*, Fan Zhang, Hong Yang, Qihuang Gong, Multilayer graphene:polycrystalline ITO for ultralow-power active control of polarization-insensitive metamaterial-induced transparency, Advanced Optical Materials, 2, 1115-1118 (2014).(被选为同期封面文章,并被Materials Views报道)
  • ◆Yu Zhu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, On-chip plasmon-induced transparency based on plasmonic coupled nanocavities, Scientific Reports 4, 3752 (2014).
  • ◆Cuicui Lu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Chip-integrated ultrawide-band all-optical logic comparator in plasmonic circuits, Scientific Reports 4, 3869 (2014).
  • ◆Zhen Chai, Xiaoyong Hu*, Yu Zhu, Sibai Sun, Hong Yang, Qihuang Gong, Ultracompact chip-integrated electromagnetically induced transparency in a single plasmonic composite nanocavity, Advanced Optical Materials 2, 320 (2014). (被选为同期封面文章,并被Materials Views China报道)
  • ◆Fan Zhang, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Low-power all-optical tunable plasmonic-mode coupling in nonlinear metamaterials, Applied Physics Letters 104, 131110 (2014).
  • ◆Yu Zhu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Ultralow-power all-optical tunable double plasmon-induced transparencies in nonlinear metamaterials, Applied Physics Letters 104, 211108 (2014).
  • ◆Xiaoyu Yang, Xiaoyong Hu*, Zhen Chai, Cuicui Lu, Hong Yang, Qihuang Gong, Tunable ultracompact chip-integrated multichannel filter based on plasmon-induced transparencies, Applied Physics Letters 104, 221114 (2014).
  • ◆Cuicui Lu, Xiaoyong Hu*, Xiaoyang Liu, Xiao Ma, Chenyun Wu, Hong Yang, Qihuang Gong, Multi-color photon sorting in plasmonic microcavities, Journal of Optics 16, 015003 (2014).

    ****************************** 2013年 *******************************


  • ◆Yu Zhu, Xiaoyong Hu*, Yongyang Huang, Hong Yang, Qihuang Gong, Fast and Low-Power All-Optical Tunable Fano Resonance in Plasmonic Microstructures, Advanced Optical Materials 1, 61 (2013).
  • ◆Cuicui Lu, Xiaoyong Hu*, Song Yue, Yulan Fu, Hong Yang, Qihuang Gong, Ferroelectric hybrid plasmonic waveguide for all-optical logic gate applications, Plasmonics 8, 749 (2013).
  • ◆Yulan Fu, Xiaoyong Hu*, Qihuang Gong, Silicon photonic crystal all-optical logic gates, Physics Letters A 377, 329 (2013).
  • ◆Yu Zhu, Xiaoyong Hu*, Qihuang Gong, Theoretical study of all-optical tunable rainbow-trapping like effect in chirped plasmonic slot waveguides, Journal of Optics 15, 035003 (2013).
  • ◆Yulan Fu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Ultrawide-band photon routing based on chirped plasmonic gratings, Applied Physics Letters 102, 151110 (2013).
  • ◆Fan Zhang, Xiaoyong Hu*, Yu Zhu, Yulan Fu, Hong Yang, Qihuang Gong, Ultrafast all-optical tunable Fano resonance in nonlinear metamaterials, Applied Physics Letters 102, 181109 (2013).
  • ◆Zhen Chai, Xiaoyong Hu*, Yu Zhu, Fan Zhang, Hong Yang, Qihuang Gong, Low-power and ultrafast all-optical tunable plasmon-induced transparency in plasmonic nanostructures, Applied Physics Letters 102, 201119 (2013).
  • ◆Zhen Chai, Xiaoyong Hu*, Qihuang Gong, All-optical switching based on a tunable Fano-like resonance in nonlinear ferroelectric photonic crystals, Journal of Optics 15, 085001 (2013). (被IOP Science LabTalk报道)
  • ◆Yu Zhu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Ultralow-power and ultrafast all-optical tunable plasmon-induced transparency in metamaterials at optical communication range, Scientific Reports 3, 2338 (2013).
  • ◆Cuicui Lu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, All-optical logic binary encoder based on asymmetric plasmonic nanogrooves, Applied Physics Letters 103, 121107 (2013).
  • ◆Cuicui Lu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Integrated all-optical logic discriminators based on plasmonic bandgap engineering, Scientific Reports 3, 2778 (2013).
  • ◆Cuicui Lu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Ultrawide-band unidirectional surface plasmon polariton launchers, Advanced Optical Materials 1, 792 (2013). (被选为同期封面文章)
  • ◆Fan Zhang, Xiaoyong Hu*, Yu Zhu, Hong Yang, Qihuang Gong, Ultralow-power all-optical tunable dual Fano resonances in nonlinear metamaterials, Applied Physics Letters 103, 191116 (2013).

    ****************************** 2012年 *******************************


  • ◆Yulan Fu, Xiaoyong Hu*, Cuicui Lu, Song Yue, Hong Yang, Qihuang Gong, All-Optical Logic Gates Based on Nanoscale Plasmonic Slot Waveguides, Nano Letters 12, 5784 (2012).
  • ◆Yu Zhu, Xiaoyong Hu*, Cuicui Lu, Yongyang Huang, Qihuang Gong, All-optical tunable wavelength-division multiplexing based on colloidal crystal coated silver film, Plasmonics 7, 589 (2012).
  • ◆Yingbo Zhang, Xiaoyong Hu*, Yulan Fu, Hong Yang, Qihuang Gong, Ultrafast all-optical tunable Fano resonance in nonlinear ferroelectric photonic crystals, Applied Physics Letters 100, 031106 (2012).
  • ◆Cuicui Lu,Xiaoyong Hu*, Yingbo Zhang, Zhiqiang Li, Hong Yang, Qihuang Gong, Large Nonlinearity Enhancement of Ag:MEH-PPV Nanocomposite by Surface Plasmon Resonance at 1550 nm, Plasmonics 7, 159 (2012).

    ****************************** 2011年 *******************************


  • ◆Cuicui Lu, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Ultrahigh-contrast and wideband nanoscale photonic crystal all-optical diode, Optics Letters 36, 4668 (2011).
  • ◆Luojia Wang, Ying Gu, Xiaoyong Hu, Qihuang Gong, Long-range surface plasmon polariton modes with a large field localized in a nanoscale gap, Applied Physics B 104, 919 (2011).
  • ◆Luojia Wang, Ying Gu, Xiaoyong Hu, Baoqing Sun, Limin Tong, Qihuang Gong, Subwavelength-confined hybrid surface modes of low attenuation in cylindrical metallic-dielectric waveguides, EuroPhysics Letters 96, 37002 (2011).
  • ◆Yingbo Zhang, Xiaoyong Hu*, Hong Yang, Qihuang Gong, Multi-component nanocomposite for all-optical switching applications, Applied Physics Letters 99, 141113 (2011).
  • ◆Zhiqiang Li, Xiaoyong Hu*, Yingbo Zhang,Yulan Fu, Hong Yang, Qihuang Gong, All-Optical Switching via Tunable Coupling of Nano-Au:MEH-PPV Photonic Crystal Microcavities,Applied Physics Letters 99, 141105 (2011).
  • ◆Xiaoyong Hu*, yingbo Zhang, Yulan Fu, Hong Yang, Qihuang Gong, Low-power and ultrafast all-optical tunable nanoscale photonic metamaterials, Advanced Materials 23, 4295 (2011).
  • ◆Cuicui Lu, Xiaoyong Hu*, Yingbo Zhang, Zhiqiang Li, Xin’an Xu, Hong Yang, Qihuang Gong, Ultralow power all-optical diode in photonic crystal heterostructures with broken spatial inversion symmetry,Applied Physics Letters 99, 051107 (2011).
  • ◆Xiaoyong Hu*, Yingbo Zhang, Xinan Xu, Qihuang Gong, Nanoscale Surface Plasmon All-Optical Diode Based on Plasmonic Slot Waveguides, Plasmonics 6, 619 (2011).
  • ◆Xiaoyong Hu*, Zhiqiang Li, Jiaxiang Zhang, Hong Yang, Qihuang Gong, Xinping Zhang, Low-Power and High-Contrast Nanoscale All-Optical Diodes Via Nanocomposite Photonic Crystal Microcavities, Advanced Functional Materials 21,1803 (2011). (被Renewable Energy Global Innovations介绍)
  • ◆SUN Bao-Qing, GU Ying, HU Xiao-Yong, GONG Qi-Huang, A Trade-off between Propagation Length and Light Confinement in Cylindrical Metal-Dielectric Waveguides, CHIN. PHYS. LETT. 28, 5, 057303 (2011).

    ****************************** 2010年以前 *******************************


  • ◆P. Jiang, X. Hu*,J. Zhang, H. Yang, Q. Gong, Ultra-fast all-optical switching in MEH-PPV photonic crystals with resonantly enhanced nonlinearity, Appl. Phys. B 99, 187 (2010).
  • ◆Yun-Feng Xiao, Bei-Bei Li, X. Jiang, Xiaoyong Hu, Yan Li, and Qihuang Gong, High quality factor, small mode volume, ring-type plasmonic microresonator on a silver chip, J. Phys. B 43, 035402 (2010).
  • ◆Zhiqiang Li, Xiaoyong Hu*, Jiaxiang Zhang, Hong Yang, Qihuang Gong, PCBM: P3HT polymer composites for photonic crystal all-optical switching applications, J. Phys. D 43, 385104 (2010).
  • ◆Yulan Fu, Jiaxiang Zhang, Xiaoyong Hu*, Qihuang Gong, Electro-optic tunable multi-channel filter in two-dimensional ferroelectric photonic crystals, J. Opt. 12, 075202 (2010).
  • ◆Jia Li, Xiaoyong Hu, Ying Gu, Qihuang Gong, Tunable wavelength-division multiplexing based on metallic nanoparticle arrays, Opt. Lett. 35, 4051 (2010).
  • ◆Xiaoyong Hu*, Cheng Xin, Zhiqiang Li,Qihuang Gong, Ultrahigh-contrast all-optical diodes based on tunable surface plasmon polaritons, New Jounal of Physics 12, 023029 (2010).
  • ◆Xiaoyong Hu*, Cheng Xin, Qihuang Gong, Disorders influences on the focusing effect of all-dielectric photonic crystal slab superlens, Physics letters A, 373, 1588 (2009).
  • ◆Xiaoyong Hu*, Jiaxiang Zhang, Hong Yang, Qihuang Gong, Tunable time response of the nonlinearity of nanocomposites by doping semiconductor quantum dots, Optics Express 17, 18858 (2009).
  • ◆Xiaoyong Hu*, Ping Jiang, Cheng Xin, Hong Yang, Qihuang Gong, Nano-Ag:polymeric composite material for ultrafast photonic crystal all-optical switching, Applied Physics Letters 94, 031103 (2009).(被Nanomaterials World报道)
  • ◆Jiaxiang Zhang, Xiaoyong Hu*, Qihuang Gong, Surface Defect States of CdTexS1-x Quantun Dots, Phys. Lett. A, 373, 4475 (2009).
  • ◆胡小永,江萍,杨宏,龚旗煌,超快速低功率有机光子晶体全光开关,激光与光电子学进展 46, 23 (2009). (2008年中国光学重要成果)
  • ◆Xiaoyong Hu*, Ping Jiang, Chengyuan Ding, Hong Yang, Qihuang Gong, Picosecond and low-power all-optical switching based on an organic photonic bandgap microcavity, Nature Photonics 2, 185 (2008).(被Nature Photonics、Nature China等报道)
  • ◆Xiaoyong Hu*, Zheng Liu, Qihuang Gong, Tunable Multichannel Filter in Photonic Crystal Heterostructure Containing permeability-Negative Materials, Phys. Lett. A 372, 333 (2008).
  • ◆Chengyuan Ding, Xiaoyong Hu*, Ping Jiang, Qihuang Gong, Tunable surface plasmon polariton microcavity, Physics Letters A, 372, 4536 (2008).
  • ◆胡小永,江萍,杨宏,龚旗煌,超快速可调谐有机光子晶体滤波器,激光与光电子学进展 44, 23 (2007).(2006年中国光学重要成果)
  • ◆Xiaoyong Hu*, Ping Jiang, Chengyuan Ding, Qihuang Gong, All-optical tunable narrow-band organic photonic crystal filter, Appl. Phys. B 87, 255 (2007).
  • ◆Ping Jiang, Chengyuan Ding, Xiaoyong Hu*, Qihuang Gong, Tunable double-channel filter based on two-dimensional ferroelectric photonic crystals, Phys. Lett. A 363, 332 (2007).
  • ◆Xiaoyong Hu*, Zheng Liu, Qihuang Gong, Multichannel filter in photonic crystal heterostructure containing single-negative materials, J. Opt. A 9, 877 (2007).
  • ◆Xiaoyong Hu*, Ping Jiang, Qihuang Gong, Tunable multichannel filter in one-dimensional nonlinear ferroelectric photonic crystals, J. Opt. A 9, 108 (2007).
  • ◆Xiaoyong Hu*, Ping Jiang, Hong Yang, Qihuang Gong, All-optical tunable photonic bandgap microcavities with a femtosecond time response, Optics Letters 31, 2777 (2006).
  • ◆JIANG Ping, HU Xiao-Yong*, YANG Hong, GONG Qi-Huang, Fabrication of two-dimensional organic photonic crystal microcavity, CHIN. PHYS. LETT. 23, 1813 (2006).
  • ◆Qihuang Gong, Xiaoyong Hu, Ultrafast Photonic Crystal Optical Switching, Frontiers of Physics in China 1, 178 (2006).
  • ◆Xiaoyong Hu*, Qihuang Gong, Yuanhao Liu, Bingying Cheng, Daozhong Zhang, Ultrafast tunable filter in two-dimensional organic photonic crystal, Optics Letters 31, 371 (2006).
  • ◆Xiaoyong Hu*, Qihuang Gong, Yuanhao Liu, Bingying Cheng, Daozhong Zhang, All-optical switching of defect mode in two-dimensional nonlinear organic photonic crystals, Applied Physics Letters 87, 231111 (2005).
  • ◆Yuanhao Liu, Xiaoyong Hu, Dongxiang Zhang, Bingying Cheng, Daozhong Zhang, Subpicosecond optical switching in polystyrene opal, Applied Physics Letters 86, 151102 (2005).
  • ◆Xiaoyong Hu*, Yuanhao Liu, Jie Tian, Bingying Cheng, Daozhong Zhang, Ultrafast all-optical switching in two-dimensional organic photonic crystal, Applied Physics Letters 86, 121102 (2005).
  • ◆Xiaoyong Hu*, Qihuang Gong, Yuanhao Liu, Bingying Cheng, Daozhong Zhang, Fabrication of Two-Dimensional Organic Photonic Crystal Filter, Appl. Phys. B 81, 779 (2005).
  • ◆Xiaoyong Hu*, Qihuang Gong, Shuai Feng, Bingying Cheng, Daozhong Zhang, Tunable Multichannel Filter in Nonlinear Ferroelectric Photonic Crystal, Opt. Commun. 253, 138 (2005).
  • ◆Xiaoyong Hu*, Yan Li, Qihuang Gong, Bingying Cheng, Daozhong Zhang, Fabrication of a Two-Dimensional Organic Photonic crystal, Chin. Phys. Lett. 22, 373 (2005).
  • ◆Xiaoyong Hu*, Qihuang Gong, Bingying Cheng, Daozhong Zhang, Abnormal Modulation of Dielectric Band Transmittance of Polystyrene Opal, Chin. Phys. Lett. 22, 1930 (2005).
  • ◆Xiaoyong Hu*, Yiquan Wang, Yuanhao Liu, Bingying Cheng, Daozhong Zhang, An optical switching in two dimensional Ce:BaTiO3 nonlinear photonic crystal, Opt. Commun. 237, 371 (2004).
  • ◆Xiaoyong Hu*, Yuanhao Liu, Bingying Cheng, Daozhong Zhang, Qingbo Meng, Fabrication of High Quality Three-Dimensional Photonic crystal, Chin. Phys. Lett. 21, 1289 (2004).
  • ◆Yiquan Wang, Zhifang Feng, Xiaoyong Hu, Bingying Cheng, Daozhong Zhang, Band gaps of an amorphous photonic materials, Chin. Phys. Lett. 21, 324 (2004).
  • ◆Xiaoyong Hu*, Qi Zhang, Yuanhao Liu, Bingying Cheng, Daozhong Zhang, Ultrafast Three-Dimensional Tunable Photonic Crystal, Appl. Phys. Lett. 83, 2518 (2003).
  • ◆Yiquan Wang, Xiaoyong Hu, Xingsheng Xu, Bingying Cheng, Daozhong Zhang, Localized modes in defect free dodecagonal quasiperiodic photonic crystals, Phys. Rev B, 68, 165106 (2003).
  • ◆Liang Li, Yicheng Xie, Yiquan Wang, Xiaoyong Hu, Zhifang Feng, Bingying Cheng, Absolute gap of two-dimensional fractal photonic structure, Chin. Phys. Lett. 20, 1767 (2003).
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