Publications:
【90】Zhiyuan Qian, Zhichao Li, He Hao, Lingxiao Shan, Qi Zhang, Jianwen Dong, Qihuang Gong, and Ying Gu*, Absorption Reduction of Large Purcell Enhancement Enabled by Topological State-Led Mode Coupling, PHYSICAL REVIEW LETTERS , 126, 023901 (2021).
【89】Qi Zhang, Qihuang Gong, and Ying Gu, Enhanced Photon-Emitter Coupling in Micro/Nano Photonic Structures, IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS, VOL. 27, NO. 1, 6700310 (2021).
【88】Lingxiao Shan, Fan Zhang, Juanjuan Ren, Qi Zhang, Qihuang Gong, Ying Gu*, Large Purcell enhancement with nanoscale non-reciprocal photon transmission in chiral gap-plasmon-emitter systems, Optics Expres, 28(23, 33890 (2020).
【87】Zhiyuan Qian, Juanjuan Ren, Fan Zhang, Xueke Duan, Qihuang Gong and Ying Gu*, Nanoscale quantum plasmon sensing based on strong photon–exciton coupling, Nanotechnology 31, 125001, (2020).
【86】Qi Zhang, He Hao, Juanjuan Ren, Fan Zhang, Qihuang Gong and Ying Gu*, A quantum phase gate capable of effectively collecting photons based on a gap plasmon structure, Nanoscale, 12, 10082 (2020).
【85】Guorui Zhang, Ying Gu, Qihuang Gong and Jianjun Chen*, Symmetry-tailored patterns and polarizations of single-photon emission, Nanophotonics, 9(11): 3557–3565, (2020).
【84】 Fan Zhang, Juanjuan Ren, Lingxiao Shan, Xueke Duan, Yan Li, Tiancai Zhang, Qihuang Gong, and Ying Gu*, Chiral cavity quantum electrodynamics with coupled nanophotonic structures, PHYSICAL REVIEW A 100, 053841 (2019) .
【83】He Hao, Mark C. Kuzyk, Juanjuan Ren, Fan Zhang, Xueke Duan, Ling Zhou, Tiancai Zhang, Qihuang Gong, Hailin Wang, and Ying Gu*, Electromagnetically and optomechanically induced transparency and amplification in an atom-assisted cavity optomechanical system, PHYSICAL REVIEW A 100, 023820 (2019).
【82】Xueke Duan, Fan Zhang, Zhiyuan Qian, He Hao, Lingxiao Shan, Qihuang Gong, and Ying Gu*, Accumulation and directionality of large spontaneous emission enabled by epsilon-near-zero film, OPTICS EXPRESS, 27(5), 7426 (2019).
【81】Guorui Zhang, Shangtong Jia, Ying Gu, and Jianjun Chen*, Brightening and Guiding Single-Photon Emission by Plasmonic Waveguide–Slit Structures on a Metallic Substrate, Laser Photonics Rev., 1900025 (2019).
【80】Fan Zhang, Dongxing Zhao, Xueyuan Hu, Qihuang Gong, Ying Gu*, Quantum discord modulated by detuning in a plasmonic nanosystem, J. Phys. B: At. Mol. Opt. Phys. 52 (2019) 115402, (2019).
【79】Qi Zhang, Juanjuan Ren, Xueke Duan, He Hao, Qihuang Gong, and Ying Gu*,Enhancing coupling coefficient in a hybrid nanotoroid–nanowire system, CHINESE OPTICS LETTERS, 17(3), 032702(2019).
【78】段雪珂 任娟娟 郝赫 张淇 龚旗煌 古英*,微纳光子结构中光子和激子相互作用,物理学报,68(14),144201 (2019)。
【77】段雪珂,古英*,龚旗煌,微纳尺度腔量子电动力学,物理,48(4),367 (2019)。
【76】He Hao, Juanjuan Ren, Xueke Duan, Guowei Lu, Iam Choon Khoo, Qihuang Gong & Ying Gu*, High-contrast switching and high-efficiency extracting for spontaneous emission based on tunable gap surface plasmon, Scientific Reports,8:11244 (2018).
【75】Xueke Duan, Juanjuan Ren, Fan Zhang, He Hao, Guowei Lu, Qihuang Gong and Ying Gu*, Large Purcell enhancement with efficient one-dimensional collection via coupled nanowire–nanorod system, Nanotechnology 29, 045203 (2018).
【74】Fan Zhang, Juanjuan Ren, Xueke Duan, Zhao Chen, Qihuang Gong and Ying Gu*, Evanescent-field-modulated two-qubit entanglement in an emitters-plasmon coupled system, J. Phys.: Condens. Matter 30,305302 (2018).
【73】 Juanjuan Ren, He Hao, Zhiyuan Qian, Xueke Duan, Fan Zhang, Tiancai Zhang, Qihuang Gong, and Ying Gu*, High-dielectric constant enhanced photon–exciton coupling in an evanescent vacuum , Journal of the Optical Society of America B Vol. 35, No. 6, 1475 (2018.)
【72】Zhao Chen, Fan Zhang, Xueke Duan, Tiancai Zhang, Qihuang Gong, and Ying Gu*, Chiral-Plasmon-Tuned Potentials for Atom Trapping at the Nanoscale, Adv. Optical Mater. 6(20), 1800261 (2018).
【71 Fan Zhang, Dongxing Zhao, Ying Gu*, Hongyi Chen, Xueyuan Hu, and Qihuang Gong, Detuning-determined qubit-qubit entanglement mediated by plasmons: An effective model for dissipative systems, Journal of Applied Physics 121, 203105 (2017).
【70】 ZHAO CHEN, FAN ZHANG, QI ZHANG, JUANJUAN REN, HE HAO,XUEKE DUAN, PENGFEI ZHANG, TIANCAI ZHANG, YING GU,* AND QIHUANG GONG,Blue-detuned optical atom trapping in a compact plasmonic structure,Photonics Research,5(5)436, (2017).
【69】 Hongyi Chen, Fan Zhang, Dongxing Zhao, Junxiang Zhang, Jingping Xu, Qiongyi He, Qihuang Gong, and Ying Gu*,Surface-plasmon-enhanced quantum field entanglement through anisotropic Purcell factors, PHYSICAL REVIEW A 96, 043865 (2017).
【68】Juanjuan Ren, Ying Gu,* Dongxing Zhao, Fan Zhang, Tiancai Zhang, and Qihuang Gong,Evanescent-Vacuum-Enhanced Photon-Exciton Coupling and Fluorescence Collection, PHYSICAL REVIEW LETTERS 118, 073604 (2017).
【67】HE HAO, JUANJUAN REN, HONGYI CHEN, IAM CHOON KHOO, YING GU,* AND QIHUANG GONG, Tunable enhanced spontaneous emission in plasmonic waveguide cladded with liquid crystal and low-index metamaterial, OPTICS EXPRESS 25, 3433 (2017).
【66】Juanjuan Ren, Hongyi Chen, Ying Gu, Dongxing Zhao, Haitao Zhou, Junxiang Zhang and Qihuang Gong, Plasmon-enhanced Kerr nonlinearity via subwavelength-confined anisotropic Purcell factors, Nanotechnology 27, 425205 (2016).
【65】Chen, HY (Chen, Hongyi) ; Ren, JJ (Ren, Juanjuan) ; Gu, Y (Gu, Ying) ; Zhao, DX (Zhao, Dongxing); Zhang, JX (Zhang, Junxiang); Gong, QH (Gong, Qihuang), Nanoscale Kerr Nonlinearity Enhancement Using Spontaneously Generated Coherence in Plasmonic Nanocavity, SCIENTIFIC REPORTS 5, 18315 (2015).
【64】Zhao, DX (Zhao, Dongxing); Gu, Y (Gu, Ying); Chen, HY (Chen, Hongyi); Ren, JJ (Ren, Juanjuan); Zhang, TC (Zhang, Tiancai) ; Gong, QH (Gong, Qihuang), Quantum statistics control with a plasmonic nanocavity: Multimode-enhanced interference, PHYSICAL REVIEW A 92, 033836 (2015).
【63】Lian, H (Lian, Hang); Gu, Y (Gu, Ying); Ren, JJ (Ren, Juanjuan); Zhang, F (Zhang, Fan); Wang, LJ (Wang, Luojia); Gong, QH (Gong, Qihuang), Efficient Single Photon Emission and Collection Based on Excitation of Gap Surface Plasmons, PHYSICAL REVIEW LETTERS 114,193002 (2015).
【62】Dongxing Zhao, Jiarui Wu, Ying Gu, and Qihuang Gong, Tailoring double Fano profiles with plasmon-assisted quantum interference in hybrid exciton-plasmon system, Applied Physics Letters 105, 111112 (2014)
【61】Hang Lian, Ying Gu, Luojia Wang, Haitao Liu, and Qihuang Gong, Radi ally oscillating and quasi-gu ided surface plasmon polaritons in cylindrical metallic nanostructures, OPTICS LETTERS, 39, 3282-3285 (2014)
【60】Dongxing Zhao, Ying Gu, Jiarui Wu, Junxiang Zhang, Tiancai Zhang, Brian D. Gerardot, and Qihuang Gong, Quantum-dot gain without inversion: Effects of dark plasmon-exciton hybridization, P H Y S I C A L R E V I E W B 89, 245433 (2014)
【59】 HM Shen, GW Lu, TY Zhang, J Liu, Y Gu, P Perriat, M Martini, O Tillement, QH Gong, Shape effect on a single-nanoparticle-based plasmonic nanosensor, NANOTECHNOLOGY, 24, 285502 (2013).
【58】GW Lu, J Liu, TY Zhang, HM Shen, P Perriat, M Martini, O Tillement, Y Gu, YB He, YW Wang, QH Gong, Enhancing molecule fluorescence with asymmetrical plasmonic antennas, NANOSCALE 5, 6545-6551 (2013).
【57】Luojia Wang, Ying Gu*, Hongyi Chen, Jia-Yu Zhang, Yiping Cui, Brian D. Gerardot, and Qihuang Gong*, Polarized linewidth-controllable double-trapping electromagnetically induced transparency spectra in a resonant plasmon nanocavity, Scientific Reports, 3, 2879 (2013).
【56】Rui Luo, Ying Gu*, Xiankuo Li, Luojia Wang, lam-Choon Khoon, and Qihuang Gong*, Mode recombination and alternation of surface plasmons in anisotropic mediums, Applied Physics Letters. 102, 011117 (2013).
【55】Xiankuo Li, Ying Gu*, Rui Luo, Luojia Wang, Qihuang Gong*, Effects of Dielectric Anisotropy on Surface Plasmon Polaritons in Three-Layer Plasmonic Nanostructures, Plasmonics 8:1043-1049(2013).
【54】Xiaonan Shan, Ismael Díez-Pérez, Luojia Wang, Peter Viktor, Ying Gu, Lihua Zhang, Wei Wang, Jin Lu, Shaopeng Wang, GihuangGong, Jinghong Li and Nongjian Tao, Imaging the electrocatalytic activity of single nanoparticles, Nature Nanotechnology 7, 668 (2012).
【53】Ying Gu, Luojia Wang, Pan Ren, Junxiang Zhang, Tiancai Zhang, Olivier J. F. Martin, and Qihuang Gong, Surface-Plasmon-Induced Modification on the Spontaneous Emission Spectrum via Subwavelength-Confined Anisotropic Purcell Factor, Nano Lett. 12, 2488 (2012).
【52】 Ying Gu, Luojia Wang, Pan Ren, Junxiang Zhang, Tiancai Zhang, Jing-Ping Xu, Shi-Yao Zhu, and Qihuang Gong, Intrinsic Quantum Beats of Atomic Populations and Their Nanoscale Realization Through Resonant Plasmonic Antenna, Plasmonics 7, 33 (2012).
【51】L. Wang, Y. Gu, X. Hu, B. Sun, L. Tong and Q. Gong, Subwavelength-confined hybrid surface modes of low attenuation in cylindrical metallic-dielectric waveguides, EPL 96, 37002 (2011).
【50】L. Wang, Y. Gu, X. Hu, and Q. Gong, Long-range surface plasmon polariton modes with a large field localized in a nanoscale gap, Appl. Phys. B 104, 919 (2011).
【49】Xueyuan Hu, Ying Gu, Qihuang Gong and Guangcan Guo, Necessary and sufficient condition for Markovian-dissipative-dynamics-induced quantum discord, Phys. Rev. A 84, 022113 (2011).
【48】Jia Li, Yi Ma, Ying Gu, Iam-Choon Khoo, and Qihuang Gong, Large spectral tunability of narrow geometric resonances of periodic arrays of metallic nanoparticles in a nematic liquid crystal, Appl. Phy. Lett. 98, 213101 (2011).
【47】Xueyuan Hu, Ying Gu, Qihuang Gong and Guangcan Guo, Enhancing the entanglement of a teleported state by local collective noises, J. Phys. B: At. Mol. Opt. Phys. 44, 075504 (2011).
【46】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).
【45】Ying Gu, Lina Huang, Olivier J. F. Martin, and Qihuang Gong, Resonance fluorescence of single molecules assisted by a plasmonic structure, PHYSICAL REVIEW B 81, 193103 (2010).
【44】Yaoguang Ma, Xiyuan Li, Huakang Yu, Limin Tong, Ying Gu, and Qihuang Gong, Direct measurement of propagation losses in silver nanowires, Opt. Lett. 35, 1160-1162 (2010).
【43】Hu XY (Hu Xue-Yuan), Gu Y (Gu Ying), Gong QH (Gong Qi-Huang), Guo GC (Guo Guang-Can), Unconditional preparation of multipartite continuous-variable entangled states among remote parties, Chin. Phys. B 19, 050305 (2010).
【42】Xueyuan Hu, Ying Gu, Qihuang Gong, and Guangcan Guo, Noise effect on fidelity of two-qubit teleportation, Phys. Rev. A 81, 054302 (2010).
【41】Li J (Li, Jia) , Hu XY (Hu, Xiaoyong) , Gu Y (Gu, Ying), Gong QH (Gong, Qihuang), Tunable wavelength-division multiplexing based on metallic nanoparticle arrays, Opt. Lett. 35, 4051-4053 (2010).
【40】Li J, Gu Y, Gong QH, Tuning of narrow geometric resonances in Ag/Au binary nanoparticle arrays,Opt. Express 18, 17684-17698 (2010).
【39】Ying Gu, Jia Li, Olivier J. F. Martin and QiHuang Gong, Solving surface plasmon resonances and near field in metallic nanostructures: Green's matrix method and its applications, Chin. Sci. Bull. 55, 2608-2617 (2010).
【38】Ying Gu, Yan Wang, Jia Li, Olivier J. F. Martin, and Qihuang Gong, Controlling plasmonic resonances in binary metallic nanostructures,J. Appl. Phys. 107,114313 (2010).
【37】Y. Gu, Y. Wang, J. Li, O. J. F. Martin and Q. Gong, Interplay of plasmon resonances in binary nanostructures,Applied Physics B-Laser and Optics 98, 353-363 (2010).
【36】Xueyuan Hu, Ying Gu, Qihuang Gong, and Guangcan Guo, Unconditional continuous variable entanglement cascading, Optics Communications 282, 1681-1687 (2009).
【35】Pengbo Li, Ying Gu, Qihuang Gong, and Guangcan Guo, Quantum-information transfer in a coupled resonator waveguide,Phys. Rev. A 79, 042339 (2009).
【34】 Pengbo Li, Ying Gu, Qihuang Gong, and Guangcan Guo, A Scheme for Atomic Entangled States and Quantum Gate Operations in Cavity QED, Chin. Phys. Lett. 26,030301 (2009).
【33】Pengbo Li, Ying Gu, Qihuang Gong, and Guangcan Guo, Generation of Ising interaction and cluster states in a one-dimensional coupled resonator waveguide, Eur. Phys. J. D 55, 205-209 (2009).
【32】Pengbo Li, Ying Gu, Qihuang Gong, and Guangcan Guo, Generation of two-mode entanglement between separated cavities, J. Opt. Soc. Am. B 26, 189 (2009).
【31】J. Li, Y. Gu, F. Zhou, Z. Y. Li, and Q. H. Gong, A designer approach to plasmonic nanostructures: tuning their resonance from visible to near-infrared, J. Mod. Opt. 56, 1396 (2009).
【30】 Pengbo Li, Ying Gu, Qihuang Gong, Guangcan Guo, Effective generation of polarization-entangled photon pairs in a cavity-QED system, Physics Letters A 372 5959–5963 (2008)
【29】Pengbo Li, Ying Gu, Lijun Wang and Qihuang Gong, Fifth-order nonlinearity and 3-qubit phase gate in a five-level tripod atomic system, J. Opt. Soc. Am. B 25, 504-512 (2008).
【28】Ying Gu, Liangliang Chen, Haixi Zhang and Qihuang Gong, Resonance capacity of surface plasmon on subwavelength metallic structures, EPL 83 27004 (2008).
【27】Zhang Hai-Xi, Gu Ying, and Gong Qi-Huang,A visible-near infrared tunable waveguide based on plasmonic gold nanoshell, Chinese Physics B 17(07), 2567 (2008).
【26】Yang Peng-Fei, Gu Ying, and Gong Qi-Huang, Surface plasmon polariton and mode transformation in a nanoscale lossy metallic cylindrical cable, Chinese Physics B 17(10), 1 (2008).
【25】C. YANG, Y. GU, L. WANG and Q.-H. GONG, Refractive index enhancement in three-level ,-type atom with a saturation field: a dressed state analysis, Journal of Modern Optics 54, 85-95 (2007).
【24】Wang Kai, Gu Ying, and Gong Qi-Huang, Stimulated emission and multi-peaked absorption in a four level N-type atom, Chinese Physics 16(01), 0130, (2007).
【23】Liangliang Chen, Ying Gu, Lijin Wang, and Qihuang Gong, Controlling optical responses through local dielectric resonance in nanometre metallic clusters, Chin. Phys. 16(01), 0249 (2007).
【22】Pengbo Li, Ying Gu, Kai Wang, and Qihuang Gong, Dark-state polaritons for quantum memory in a five-level M-type atomic ensemble, PHYSICAL REVIEW A 73, 032343 (2006).
【21】LJ Wang,Ying Gu, Bing Dai andQihuang Gong, Local dielectric resonance and collective response of randomly ordered metallic cells in composites,J. Phys.: Condens. Matter 18 4515–4526 (2006).
【20】Ying Gu, Lei Wang, Kai Wang, Cheng Yang and Qihuang Gong, Coherent population trapping and electromagnetically induced transparency in a five-level M-type atom, J. Phys. B: At. Mol. Opt. Phys. 39 463–471 (2006).
【19】QINGQING SUN, YING GU and QIHUANG GONG, Resonant emission in four-wave mixing for a cycling transition , Journal of Modern Optics 53, 1663-1673 (2006).
【18】Bing Dai, Ying Gu, Chen Li, and Qihuang Gong, Similarity of dielectric resonance, local field distribution, and optical response in fractal composites, Phys. Rev. B 72, 064112 (2005).
【17】Ying Gu, Qingqing Sun, and Qihuang Gong, Coherent hole burning and Mollow absorption effects in the cycling transition subject to a magnetic field, PHYSICAL REVIEW A 69, 063805 (2004).
【16】Ying Gu, Qingqing Sun and Qihuang Gong, Widening and shifting of the EIT windows in a multi-driven transition , J. Phys. B: At. Mol. Opt. Phys. 37 1553–1563 (2004).
【15】QINGQING SUN, YING GU and QIHUANG GONG, Combination of electromagnetically induced transparency and a Mollow absorption spectrum in a degenerate two-level atomic ensemble: , Journal of Modern Optics, 51, 1899-1909 (2004).
【14】 Ying Gu and Qihuang Gong,Localized mode transfer and optical response in three-component omposites,Phys. Rev. B 69, 035105 (2004).
【13】Sun Qing-Qing, Gu Ying and Gong Qi-Huang, Effect of relaxation rate on population distribution, EIT and refraction in and V systems, Chinese Physics 13(10), 1711 (2004).
【12】Chen Li, Ying Gu, Bing Dai, and and Qihuang Gong , Green's function formalism in semi-infinite composites: an investigation of local field distribution, Chinese Physics 13(11) , 1951 (2004).
【11】Bing Dai, Ying Gu, Chen Li, and Qihuang Gong, Dielectric resonance, local field distribution, and optical response in 3D resonant composites, The European Physical Journal B 42,165 (2004).
【10】Ying Gu and Qihuang Gong, Dielectric resonance bandgap and localized defect mode in a periodically ordered metallic-dielectric composite, Phys. Rev. B 70, 092101 (2004).
【9】Ying Gu, Qingqing Sun, and Qihuang Gong, Quantum coherence in a degenerate two-level atomic ensemble for a transition , PHYSICAL REVIEW A 67, 063809 (2003).
【8】Ying Gu and Qihuang Gong, Avoided crossing of dielectric resonances in three-component composites, Phys. Rev. B 67, 014209 (2003).
【7】Y. Gu, and K. W. Yu, Optical responses through dilute anisotropic composites: Numerical calculations via Green's-function formalism, Chin. Phys. 11(06),601 (2002).
【6】Ying Gu and Qihuang Gong, Optical response of two interacting clusters in composites, J. Phys.: Condens. Mat. 14, 6567 (2002).
【5】Y. Gu, K. W. Yu and Z. R. Yang, Statistics of level spacing of geometric resonances in random binary composites, Phys. Rev. E 65,046129 (2002).
【4】Y. Gu, K. W. Yu and Z. R. Yang, Fluctuations and scaling of inverse participation ratios in random binary resonant composites, Phys. Rev. B 66,012202 (2002).
【3】Y. Gu, K. W. Yu and H. Sun, Local-field distribution in resonant composites: Green’s-function formalism, Phys. Rev. B 59, 12847 (1999).
【2】M. F. Law, Y. Gu and K. W. Yu, Optical nonlinearity studied via anisotropic microstructure: a numerical study on random impedance networks, J. Phys.: Condens. Mat. 10, 9549 (1998).
【1】M. F. Law, Y. Gu and K. W. Yu, Optical nonlinearity enhancement through correlated microstructure, Phys. Rev. B 58, 12536 (1998).