沈云，男，武汉大学本科、硕士、博士，丹麦科技大学(DTU)访问学者，南昌大学物理与材料学院硕士生导师，教授。在国际著名期刊 Advanced Optical Materials， Nanophotonics， Physical Review Applied， Applied Physics Letters， Optics Express 等上发表SCI、EI论文七十余篇;主持及参与国家自然科学基金、江西省自然科学基金等各类基金项目14项，包括主持国家自然科学基金3项及主持国家自然科学基金重大科研仪器研制项目子课题1项。出版教材2部。其中一项研究成果被斯坦福大学教授J.A. Schuller在Nature Material上评价为该方向研究的 “重大进展”。

研究方向主要围绕电磁频谱长期关注并亟待解决的微波与可见光之间"太赫兹gap"科学问题，及其与物联网、人工智能密切相关的太赫兹6G通信技术需求，依据国家战略导向，立足科技发展，开展相关建设及研究。在电磁波调控器件，探测器，太赫兹传感、6G通信等方向进行了具体研究，取得了一系列成果并受到中国日报、大江网等各媒体及学习强国报道。

微纳光子器件，太赫兹探测器、传感、6G通信

1.国家自然科学基金重大科研仪器研制项目“超快原子分辨太赫兹近场扫描隧道显微镜”（No:61927813）; 总直接费用765万, 合作单位南昌大学分配经费100.98万；起止日期：2020.1-2024.12.  本人为南昌大学主持。

2.国家自然科学基金“石墨烯等离激元非互易传输系统光场局域调控研究” （No：61865009）; 经费：38万，起止日期：2019.1-2022.12. 本人主持。

3.国家自然科学基金 “基于Metasurface的THz慢波器件研究”（No: 61405087）; 经费：25万元；起止日期：2015.1-2017.12. 本人主持。

4.国家自然科学基金 “一维金属微纳结构反激光器研究”（No: 61265002）; 经费：45万元；起止日期：2013. 1-2016.12. 本人主持。

5.江西省“近地空间环境与信息协同创新中心”；经费：2000万元； 起始日期：2014.5 ； 团队骨干。

6.南昌市揭榜挂帅项目“太赫兹6G通信光子互联芯片研究” (2023GBGS002); 立项日期：2023.09。本人主持。

[1] Li H,Zheng C,Duan S,Li J,Xu H,Li Y,Song C,Yang F,Yue Z,Shi W,Zhang Y,Shen Y*,Yao J.Polarization Detection of Terahertz Waves using All-Silicon Metasurfaces with Tightly Focusing Behavior[J].Laser & Photonics Reviews, 2023, ( in publication).

[2] 徐建伟,欧阳收剑,段守鑫,邹林儿,邓晓华,沈云.太赫兹平面环偶极子超材料传感器及地沟油检测[J].量子电子学报，2023,40(3):333-339.

[3] Li H,Zheng C,Duan S,Li J,Xu H,Li Y,Song C,Yang F,Yue Z,Shi W,Zhang Y,Shen Y*,Yao J.Terahertz all-silicon metasurfaces with off-axis bifocal characteristics for polarization detection[J].Nanophotonics,2023, (in publication)

[4] Zhang T, Zhang X, Shen Y*, Xu Y, Luo L, Gu J, Yang S, Deng X. Experiment on terahertz metasurfaces of metal split ring resonators with bound state in the continuum [J]. APL materials, 2023, 11, 051102.

[5] Li H, Li J, Zheng C, Xu H, Li P, Song C, Yang F , Li J, Yue Z, Zhang Y, Shi W, Yao J, Duan S,Shen Y*.Flexible terahertz phase modulation profile via all-siliconmetasurfaces. Optics and Lasers in Engineering[J],2023,16,107616.

[6] Hui-Chang Li,Jing-Wei Xu,Chen Luo,Tai-Lin Zhang,Jian-Wei Xu,Xiang Zhou,Yun Shen*.Non-Hermitian total-loss high-order topological insulator based on 1D Su–Schrieffer–Heeger (SSH)[J].Physica B, 2023, 650, 414570.

[7] Shoujian Ouyang, Jianwei Xu, Shouxin Duan, Danni Ye, Yun Shen*, Xiaohua Deng Design and experiment of terahertz unidirectional transmission structure based on neural network[J].Results in Physics, 2023, 47, 106363.  

[8] Li H, Duan S, Zheng C, Li J, Xu H, Song C, Li J, Yang F, Shi W, Zhang Y, Shen Y^*, Yao J. Manipulation of longitudinally inhomogeneous polarization states empowered by all-silicon metasurfaces [J]. Advanced Optical Materials, 2022, 2202461:1-11.

[9] Shen Y^*, Ji J, Li H, Zhang L, Yu X, Yan S, Rasmussen M, Shen Q, Madhi D, Zhou B, Jepsen P, and Deng X. Realization of photonic topological insulators at terahertz frequencies characterized by time-domain spectroscopy[J]. Physical Review Applied, 2022, 8, 064025.

[10] Xu J, Ouyang S, Luo L, Shen Y^*, Zou L, Tan Z, Deng X. Experiment on parity-time-symmetry phase transition in non-Hermitian metasurfaces[J]. Journal of the Optical Society of America B, 2022,39(7):1847.

[11] Xu L, Xu J, Liu W, Lin D, Lei J, Zhou B, Shen Y^*, Deng X. Terahertz metal-graphene hybrid metamaterial for monitoring aggregation of Aβ16–22 peptides[J]. Sensors and Actuators B: Chemical, 2022,367:132016.

[12] Li H, Luo C, Zhang T, Xu J, Zhou X, Shen Y^*, Deng X. Topological Refraction in Kagome Split-Ring Photonic Insulators[J]. Nanomaterials, 2022,12(9):1493.

[13] Zhong Y, Han Y, Lai Z, mLi Y, Shen Y^*, Deng X. Topological Semimetal PtTe2 Terahertz Detector [J]. Acta Optica Sinica, 2022,42(15):1504001.

[14] Dai G, Xing X, Yan Wei, Shen Y^*, Deng X. Stress tunable dynamic susceptibility of a magnetic vortex in a flexible Fe81Ga19 nanoring [J]. Journal of Applied Physics, 2022, 132:043901.

[15] Sun X, Cui D, Shen Y, Li W, Wang J. Non-destructive detection for foreign bodies of tea stalks in finished teaproducts using terahertz spectroscopy and imaging[J]. Infrared Physics & Technology, 2022, 121: 104018.

[16] Yan W, Nie Z, Zeng X, Dai G, Cai M, Shen Y, Deng X. Machine-Learning-Enabled Vectorial Opto-Magnetization Orientation[J]. Annalen der Physik, 2022, 534: 2100287.

[17] Li Y, Sun Y, Li Q, Lei J, Yang B, Shen Y, Cai Y, Deng X. Temperature-Dependent Terahertz Spectra of Isonicotinamide in the Form I Studied Using the Quasi-Harmonic Approximation [J]. ChemPhysChem 2022, 23: e202100849.

[18] Xu J,Xiao S,He P,Wang Y,Shen Y,Hong L,Luo Y,He B. Realization of broadband truly rainbow trapping in gradient-index metamaterials [J]. Opt Express. 2022, 30(3):3941-3953.

[19] Zhou Y, He P, Xiao S, Hong L,Shen Y, Luo Y, Xu J.Realization of tunable index-near-zero modes in nonreciprocal magneto-optical heterostructures [J]. Optics Express. 2022, 30(15):27259-27272.

[20]代国红，许艺铧，吴庆丰，沈云，韩道福，邓晓华. 基于惠斯通电桥的弯曲应变测量灵敏度研究[J]. 南昌大学学报（理科版）, 2022, 46(1): 66-71.

[21] 钟常清，欧秀娟，胡志翯，李寅，杨波，沈云，邓晓华. 太赫兹光谱技术用于饲料含水量的测定[J]. 中国饲料, 2022, 19: 99-103.

[22] Niu Q, Yan J, Shen L, Wu C, You Y, Shen Y^*. Space-wave isolator based on remanence at microwave frequencies[J]. Optik, 2021,227:165531.

[23] Xu L, Shen Y^*, Gu L, Li Y, Deng X, Wei Z, Xu J, Cao J. Optical strong coupling in hybrid metal-graphene metamaterial for terahertz sensing[J]. Chinese Physics B, 2021,30(11):118702.  

[24] Hong L, Wang Y, Shen Y^*, Deng X, Yuan K, Xiao S, Xu J. Broadband energy squeezing and tunneling based on unidirectional modes[J]. Optical Materials Express, 2021,11(9):2975-2984.

[25] Lei J, Cai M, Shen Y, Lin D, Deng X. Molecular dynamics study on the inhibition mechanisms of ReACp53 peptide for p53–R175H mutant aggregation[J]. Physical Chemistry Chemical Physics, 2021,23(40):23032-23041.

[26] Sun X, Li J, Shen Y, Li W. Non-destructive Detection of Insect Foreign Bodies in Finishing Tea Product Based on Terahertz Spectrum and Image[J]. Frontiers in Nutrition, 2021,8:757491.

[27] Xu J, He P, Feng D, Yong K, Hong L, Shen Y, Zhou Y. Slow wave and truly rainbow trapping in a one-way terahertz waveguide[J]. Optics Express, 2021,29(7):11328-11341.

[28]Yan W, Lin S, Lin H, Shen Y, Nie Z, Jia B, Deng X. Dynamic control of magnetization spot arrays with three-dimensional orientations[J]. Optics Express, 2021,29(2):961-973.

[29] Yu Xin, Shen Yun*, Dai Guohong, et al. Phase-Controlled Planar Metalenses for High-Resolution Terahertz Focusing[J]. Photonics, 8(5):143 (2021).

[30]Zhang, S., Wei, Z., Xu, L., Xu, J., Ouyang, S., & Shen, Y*.  Plasmonic Fishnet Structures for Dual Band THz Left-Handed Metamaterials. Photonics (Vol. 8, No. 4, p. 116). Multidisciplinary Digital Publishing Institute(2021, April) .

[31] Junxing Wang, Yun Shen*, Xin Yu, Liner Zou, Shoujian Ouyang, Xiaohua Deng*. Active control of parity-time symmetry phase transition in terahertz metasurface, Physics Letters A, 400: 127304 (2021).

[32] 汪云、卢毅、罗昊宇、丁燕、代国红、沈云*、邓晓华*.“石墨烯微米带THz SPPs的激发及场分布特性研究.”中国科学:物理学 力学 天文学:1-7[2021-04-14]（2021）

[33] Zhang, H., Liu, Y., Liu, Z., Liu, X., Liu, G., Fu, G., ... & Shen, Y. Multi-functional polarization conversion manipulation via graphene-based metasurface reflectors. Optics Express, 29(1), 70-81 (2021).

[34] Xu, J ; Shen, Q ; Yuan, K ; Deng, XH ; Shen, Y ; Zhang, H ; Wu, CH ; Xiao, SS ; Shen, LF* . Trapping and releasing bidirectional rainbow at terahertz frequencies. Optics Communications, 473, 125999 (2020).

[35] Shen, Q. ,  You, Y. ,  Xu, J. ,  Shen, Y. ,  Deng, X*. , &  Wang, Z. , et al. Mechanically scanned leaky-wave antenna based on a topological one-way waveguide. Frontiers of Physics, 15(3) (2020).

[36] 丁燕、钟粤华、郭俊青、卢毅、罗昊宇、沈云*、邓晓华*.黑磷各向异性拉曼表征及电学性能[J].物理学报,70(3):037801] (2020)

[37] Yan, W. ,  Lin, S. ,  Lin, H. ,  Shen, Y. , &  X  Deng. Dynamic control of magnetization spot arrays with three-dimensional orientations. Optics Express, 29(2) (2020).

[38] Zhou, Q. , Shen, Y. ,  Li, Y. ,  Xu, L. , &  X  Deng*. Terahertz spectroscopic characterizations and dft calculations of carbamazepine cocrystals with nicotinamide, saccharin and fumaric acid. Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy, 236, 118346 (2020).

[39]Ruijian Cheng,Ling Xu,Xin Yu,Liner Zou,Yun Shen*,Xiaohua Deng. High-sensitivity biosensor for identification of protein based on terahertz Fano resonance metasurfaces[J]. Optics Communications,473:125850 (2020).

[40] 梁晋铭、雷江涛、汪云、丁燕、沈云*、邓晓华*. High performance terahertz anisotropic absorption in graphene–black phosphorus heterostructure[J]. Chinese Physics B, v.29(08):97-101 (2020).

[41] Wang Y, Zhang S, Shen Y^*, Deng X , Luo X. Manipulation on A mplitude of Anomalous Refraction in Staggered Terahertz V-Shaped Metasurface [J]. Acta Optica Sinica,40(7):0713001(2020).  

[42] Li, Y*. ,  Xu, L. ,  Zhou, Q. ,  Xiong, G. ,  Shen, Y. , &  Deng, X. . A comparative evaluation of the activities of thiol group and hydroxyl group in low-frequency vibrations using terahertz spectroscopy and dft calculations. Spectrochimica Acta Part A Molecular & Biomolecular Spectroscopy, 214, 246-251 (2019).

[43] Dai, G., Xing, X., Shen, Y., & Deng, X. . Stress tunable magnetic stripe domains in flexible Fe81Ga19 films. Journal of Physics D: Applied Physics, 53(5), 055001 (2019).

[44] Yanqiang Xie, Chang Yang, Yun Wang, Yun Shen*, Xiaohua Deng*, Binbin Zhou, Juncheng cao, “Anomalous refraction and reflection characteristics of bend V-shaped antenna metasurfaces,” Scientific Reports, 9, 6700 (2019).

[45] Chang Yang, Yun Shen,*, Yanqiang Xie, Qi Zhou, Xiaohua Deng*, liner Zou, Juncheng Cao, “Broadband Terahertz planar lenses based on plasmonic metasurfaces,” Phys. Lett. A,383, 789 (2019).

[46] Yanqiang Xie, Chang Yang, Yun Wang, Yun Shen*, Xiaohua Deng*, Xiaoqing Luo, “The Influence of Incident Modes for polarization conversion in a terahertz metasurface,” Opt. Commun. 43, 341-344 (2019).

[47] Guohong Dai, Xiangjun Xing , Yun Shen, and Xiaohua Deng, “Stress-controlled dynamic susceptibility in FeGa stripes ,” J. Appl. Phys. 123, 243902 (2018).

[48] Shen Yun*, Wang Tao, Wang Yun, Deng xiaohua*, Cao Juncheng, Tan Zhiyong, Zou Liner, Dai Guohong, “Broad-Band polarization characteristics on transmission and reflection of metal array structures in terahertz region,” Acta Optica Sinica, 38, 0513001 (2018).

[49] Tao Wang, Liner Zou, Yun Shen*, Miao Yi, Xiaohua Deng, Guoping Wang, “Terahertz unidirectional invisibility in grating-based structures,” J. Mod. Opt. 64, 1971-1975 (2017).

[50] Yun Shen, Huaqing Liu, Xiaohua Deng, Guoping Wang, “Time-reversed lasing in the terahertz range and its preliminary study in sensor applications,” PHYSICS LETTERS A 381, 516-519 (2017).

[51] Yun Shen, Xiao Hua Deng, and Lin Chen, “Unidirectional invisibility in a two-layer non-PT symmetric Slab,” Opt. Express 22, 19440-19447 (2014).

[52] Yun Shen, Linfang Shen, Zhenquan Lai, Guoping Wang, Xiaohua Deng, “Time-reversed lasing based on one-dimensional gratings,” Phys. Lett. A 378, 299-302 (2014).

[53] Yun Shen, Xiaohua Deng, Jiwu Fu, and Guoping Wang, Dual-channel rainbow trapping of terahertz surface plasmon-polariton in graded metallic grating structures,” J. Mod. Opt. 61, 1545-1549 (2014).

[54] Shen Yun, Fu Ji-Wu, Yu Guo-Ping, “Influence of gain on propagation properties of slow light in one-dimensional periodic structures,” Acta Phys. Sin. 63, 174202 (2014).  

[55] L. E. Zou, Y. D. Ge, Y. Shen, B. X. Chen, and M.Iso, “photoconductivity of amorphous As2S8 chaclcogenide film under bandgap light irradiation,” AIP Advances 3, 062111-9(2013).

[56] Shen Yun, Yu Guo-ping, and Fu Ji-wu, “Theoretical analysis of coherent perfect absorption in one-dimensional anti-laser,” Acta Phys. Sin. 61, 164204 (2012)

[57] Yun Shen, Guoping Yu, Jiwu Fu, and Liner Zou, “Gain-assisted optical switching in plasmonic nanocavities,” Chin. Opt. Lett. 10, 021301 (2012).

[58] Shen Yun, Yu Guoping, Fu Jiwu, and Zou Liner, “Simulations of coupled photonic crystals waveguides constructed with a portion of 12-fold photonic quasicrystals,” 2012 Symposium on Photonics and Optoelectronics, SOPO 2012.

[59] Zou L. E., Yao. S. T., Chen B. X., Shen Y, Hamanaka H., Iso M, “Recovery response of optical stopping effect on P2As20S78 and Sn1As20S79 film waveguide,” AIP Advances 2, 012146 (2012).

[60] Zou Liner; Yao Songchao; Wang Guori, and Shen Yun, “Characteristics of optical waveguide in Nd doped phosphate glass with protection of BK7 glass thin film,” Opt. Technol. 38, 708-711 (2012).

[61] Yun Shen, Guo-ping Yu, and Guo-ping Wang, “Slow light in one dimensional metallic-dielectric photonic crystals due to sign change of the effective dielectric constant,” Appl. Phys. Lett. 99, 221916 (2011).

[62] Yun Shen, Hailin Liu, Jiwu Fu, and Guoping Yu, “Double rainbow trapping of light in one dimensional chirped metallic-dielectric photonic crystals,” J. Opt. Soc. Am. B 28, 2444-2447 (2011).

[63] Yun Shen, Jiwu Fu, Guoping Yu, “Rainbow trapping in one-dimensional chirped photonic crystals composed of alternating dielectric slabs,” Phys. Lett. A 375, 3801-3803(2011).

[64] Yun shen, Guoping Wang, Guoping Yu, Jiwu Fu, and Lin Chen, “Multiple slow light bands in photonic crystal coupled resonator optical waveguides constructed with a portion of photonic quasicrystals,” Phys. Lett. A 375, 712-715 (2011).

[65] Shen Yun, Fan Ding-Huan, Fu Ji-Wu, Yu-Guoping. Theoretical research on optical properties of gain-assisted plasmonic coupled resonator optical waveguides [J].  Acta Physica Sinica, 60, 117302 (2011).

[66] Shen Yun, Yu Guoping, Fu Jiwu, Zou Liner, Fan Dinghuan. Defect-mode properties of photonic crystals constructed with a portion of photonic quasicrystals[J]. Acta Optica Sinica, 31, 0623001 (2011). (in Chinese).

[67] 沈云, 任桂华，范定寰, “基于表面等离子体激元纳米微腔的光学双稳态.”南昌大学学报(理科版) 35, 486-489 (2011).

[68] L. Chen, G. P. Wang, X. Li, W. Li, Y. Shen, J. Lai, and S. Chen, “Broadband slow-light in graded-grating-loaded plasmonic waveguides at telecom frequencies,” Appl. Phys. B 104, 653-657 (2011).

[69] ZouLiner (邹林儿), Wang Gouri (王国日), Shen Yun (沈云), Chen Baoxue (陈抱雪) and Mamoru Iso (矶守), “As2S8 planarwaveguide: refractive index changes following an annealing and irradiation andannealing cycle, and light propagation features.” J. Semicond. 32,112004 (2011).

[70] Yun Shen, and Guo Ping Wang, “Gain-assisted time delay of plasmons in coupled metal ring resonator waveguides,” Opt. Express 17, 12807-12812 (2009).

[71] Yun Shen, and Guo Ping Wang, “Optical bistability in metal gap waveguide nanocavities,” Opt. Express 16, 8421-8426 (2008).