杨荣草,博士,三级教授,博士生导师,山西省通信学会常务理事,山西省高校工委、省科技厅高级专家,国内外二十多种著名期刊审稿人。澳大利亚国立大学和英国索尔福德大学访问学者。
近年来,先后主持国家自然科学基金面上项目3项,教育部高等学校新教师基金1项,以及山西省自然科学基金、山西省回国留学基金、山西省留学回国人员科技活动择优资助人才项目以及山西省教育厅高等学校优秀成果培育项目等多项。在Appl. Phys. Lett、Phys. Rev. A 、Phys. Rev. E、Chaos, Solitons & Fractals、Opt. Express、Commun. Nonlinear Sci.、Nonlinear Dyn.、J. Lightwave Technol.、Opt. Laser Technol.等国内外重要杂志上发表学术论文150余篇,其中被SCI收录100余篇,授权发明专利项8项。2022年山西省《通信原理》线下一流课程负责人。获2011山西省高等学校科学技术奖二等奖(排名第一)、2012山西省科学技术奖三等奖(排名第一)、2019山西省高等学校科学研究优秀成果二等奖(排名第一)、2023山西省教学成果奖(高等教育本科)一等奖(排名第一)。主讲的《通信原理》课程被认定为山西省高等学校线下一流课程。
[1] Jingjing Zhou, Huakun Xia Xuesong Bai, Rongcao Yang*, Deep-learning-assisted inverse design of coding metasurfaces for arbitrarily directed vortex beams, Optics Communications 577,131390 (2025)
[2] Xiaohui Tan, Rongcao Yang*, Shu-Lin Chen*, Ka Fai Chan, Bao Jie Chen, Zhao-Qi Cui, Pei-Yuan Qin, Y. Jay Guo, and Chi Hou Chan*, Highly Integrated Full-space Coding Metasurface for LP and CP Waves Manipulation Spanning Millimeter-wave and Sub-THz bands,J. Lightwave Technol. 43(1)288-298 (2025)
[2]Xuesong Bai, Yuxin Wang, Yijia Zhao, Jinping Tian, Wenmei Zhang, Rongcao Yang*,Temperature-mechanically reconfigurable bidirectional multifunctional metasurface, Opt. Laser Technol. 182,112224 (2025)
[3]Huakun Xia, Shu-Lin Chen, Yuxin Wang, Yijia Zhao, Heping Jia, Rongcao Yang*, and Y. Jay Guo,Deep-learning-assisted intelligent design of terahertz hybrid-functional metasurfaces with freeform patterns, Opt. Laser Technol. 181, 112041(2025)
[4]Kui Huo, Bin Li, Heping Jia, J. M. Christian, Rongcao Yang*,Families of exact similaritons with flexible modulations in N-coupled homogeneous and inhomogeneous systems,Phys. Lett. A 527,129997 (2024)
[5]Yanan Pei, Qi Liu, Rongcao Yang*, Ying Gu,Tunable enhanced chiroptical response of a twisted L-shaped plasmon nanoparticle system,J. Opt. Soc. Am. B, 41(11) 2599(2024)
[6]Min Han, Xiaoqin Bai, and Rongcao Yang*, Interference and tunneling of beams in fractional systems with rectangular potential. Eur. Phys. J. D 78:102 (2024)
[7]Xiaoqin Bai, Juan Bai, Boris A. Malomed, and Rongcao Yang*, Spectrum conversion and pattern preservation of Airy beams in fractional systems with a dynamical harmonic-oscillator potential, Chaos, Solitons & Fractals, 182,114747 (2024)
[8]Kui Huo, Jing Chen, Heping Jia, Rongcao Yang*,Spatiotemporally modulated similaritons and composite waves in inhomogeneous system, Nonlinear Dyn., 112: 9445–9458 (2024)
[9]Juan Bai, Xiaoqin Bai, Zhipei Gao, Rongcao Yang*, Frequency-dependent fundamental and dipole gap solitons in PT -symmetric nonlinear metamaterials, Physical Review A 109, 043518 (2024)
[10]Xiaoqin Bai, Rongcao Yang*, Jing Chen, Juan Bai and Heping Jia,Abrupt focus and bright spot formation in fractional system with PT-symmetric nonlocal nonlinearity,Physica Scripta. 99 035224 (2024)
[11]Zhipei Gao, Rongcao Yang*, Juan Bai , Heping Jia, Frequency-tunable quartic soliton innonlinear negative-index metamaterials, Optics Communications 555, 130230 (2024)
[12]Yanan Pei, Zhichao Li, Qi Liu, Lingxiao Shan, Ying Gu, Rongcao Yang*,Plasmon-induced quantum interference near an L-shaped nanostructure,J. Opt. Soc. Am. B, 40(6) 1566-1572 (2023)
[13]Yuxin Wang, Rongcao Yang*,Yijia Zhao, Jinping Tian, Wenmei Zhang, Li Ding,Dual-mode bidirectional multifunctional chiral metamaterial based on self-complementary resonators,J. Opt. Soc. Am. B, 40(6) 1435-1442(2023)
[14]Yuxin Wang, Rongcao Yang*, Yijia Zhao, Jinping Tian,Wide-angle chiral polarization converter for reflection and transmission Modes,Optics Communications 530, 129196 (2023)
[15]Rongcao Yang*, Jing Chen, Xiaoqin Bai, Heping Jia, Juan Bai, Amplitude-phase modulated composite waves in coupled nonlocal system with self-induced PT symmetric potential,Opt. Express, 31(15): 24376- 24386 (2023)
[16]Jing Chen, Rongcao Yang*, Xiaoqin Bai, Juan Bai, Heping Jia, Interference of Gaussian and/or Airy beams in coupled PT-symmetric nonlocal system, Optik 273 (2023) 170435
[17]Kui Huo, Rongcao Yang*, Heping Jia,Yingji He,J. M. Christian,Exact similariton solution families and diverse composite waves in coherently coupled inhomogeneous systems,Nonlinear Dynamics 111: 14435–14451 (2023)
[18]Zhouzheng Kang, Rongcao Yang*, Constructing families of solutions to an integrable time-dependent shallow water wave equation in(1+1)-dimensions, Romanian Journal of Physics 68, 112 (2023)
[19]Xiaoqin Bai, Rongcao Yang*, Heping Jia,Juan Bai, Dynamics and manipulation of Airy beam in fractional system with diffraction modulation and PT-symmetric potential, Nonlinear Dynamics,111:4577–4591(2023)
[20]白玉凤,赵以嘉,王雨馨,邹龙飞,杨荣草*,基于同一平面Au-VO2 谐振器的可切换双功能超表面,量子光学学报29(3):030801 (2023)
[21]Yijia Zhao, Rongcao Yang*, Yuxin Wang, wenmei Zhang,Jinping Tian, VO2-assisted multifunctional metamaterial for polarization conversion and asymmetric transmission, Opt. Express, 30(15): 27407-27417 (2022)
[22]Heping Jia, Rongcao Yang*, Qi Guo, J.M. Christian, The effect of coherent coupling nonlinearity on modulation instability and rogue wave excitation, Communications in Nonlinear Science and Numerical Simulation, 108:0-106246. (2022)
[23]Yi Fan, Rongcao Yang*,Zhaohua Li, Yijia Zhao, Jinping Tian, Wenmei Zhang,Narrowband metamaterial absorbers based on interlaced T-shaped all-dielectric resonators for sensing application,J. Opt. Soc. Am. B, 39(10) 2863(2022)
[24]Yuxin Wang, Rongcao Yang*, Yijia Zhao, Zhaohua Li, Wenmei Zhang, Jinping Tian,Independently tunable bifunctional terahertz metasurface based on double-layer graphene,Optical Materials, 124 : 111953 (2022)
[25]Yijia Zhao, Rongcao Yang*, Jiayun Wang, Xia Wei, Jinping Tian, wenmei Zhang, Dual-mode terahertz broadband polarization conversion metasurface with integrated graphene-VO2, Optics Communications, 510:0-127895. (2022)
[26]Jiayun Wang, Rongcao Yang*, Zhaohua Li, Jinping Tian, Reconfigurable multifunctional polarization converter based on asymmetric hybridized metasurfaces, Optical Materials, 124:111953. (2022)
[27]李达民,王佳云,苏晓强,董丽娟*,陈新伟,张文梅,杨荣草*,基于PIN二极管的可开关宽带极化转换超表面,中国激光,49(3),0816001 (2022)
[28]Ruirong Xue, Rongcao Yang*, Heping Jia, Yan Wang, Novel bright and kink similariton solutions of cubic-quintic nonlinear Schrodinger equation with distributed coefficients, Physica Scripta, 96(12):125230(2021).
[29]Zhaohua Li, Rongcao Yang*,Jiayun Wang, Yijia Zhao, Jinping Tian, Wenmei Zhang, Multifunctional metasurface for broadband absorption, linear and circular polarization conversions, Optical Materials Express, 11(10):3507-3519 (2021).
[30]Jiayun Wang, Rongcao Yang*, Runbo Ma, Jinping Tian, Wenmei Zhang, Reconfigurable Multifunctional Metasurface for Broadband Polarization Conversion and Perfect Absorption, IEEE Access, 8:105815-105823 (2020).
[31]Heping Jia, Bin Li, Rongcao Yang*, Diverse composite waves in coherently coupled inhomogeneous fiber systems with external potentials,Nonlinear Dyn99,2987 (2020)
[32]Rongcao Yang*, Jie Gao, Heping Jia, Jinping Tian, J.M. Christian,Ultrashort nonautonomous similariton solutions and the cascade tunneling of interacting similaritons. Optics Commun. 459,125025 (2020)
[33]Chen Yuan, Rongcao Yang*, Jiayun Wang, Jinping Tian, Tunable enhanced bandwidth all-graphene -dielectric terahertz metamaterial absorber/reflector,Optik,224,165517 (2020)
[34]薛瑞荣, 贾鹤萍,杨荣草*,饱和非均匀光纤中啁啾孤子的频谱特性研究,光学学报,40(22),2219001(2020)
[35]白娟,杨荣草*,田晋平等,超材料中高阶效应影响下飞秒准亮孤子解及其特性,光学学报,40(2),1219001(2020)
[36]李达民,袁苏,杨荣草*,田晋平,张文梅,动态光调控多态太赫兹超材料吸收器,光学学报,40(8),0816001 (2020)
[37]袁晨,田晋平,杨荣草*,基于石墨烯的太赫兹可调谐宽带超材料吸收器,测试技术学报,34(3)265-267(2020)
[38]Rongcao Yang*,Jianping Xu , Jiayun Wang, Runbo Ma, and Wenmei Zhang, Frequency-reconfigurable metamaterial absorber/reflector with eight operating modes, Opt. Express, 27(12): 16550-16559 (2019)
[39]Su Yuan, Rongcao Yang*, Jianping Xu, Jiayun Wang and Jingping Tian, Photoexcited switchable single- /dual-band terahertz metamaterial absorber, Mater. Res. Express, 6, 075807(2019)
[40]Su Yuan, Rongcao Yang*, Jinping Tian, Wenmei Zhang. A photo-excited switchable tristate terahertz metamaterial absorber, Int. J. RF Microw. Comput. Aided Eng. e22014 (2019)
[41]Heping Jia, Rongcao Yang*, Jinping Tian, Wenmei Zhang, High-power pulse, pulse pair, and pulse train generated by breathers in dispersion exponentially decreasing fiber, Appl. Opt., 58(4): 912-919(2019)
[42]Heping Jia, Rongcao Yang*, Chaoqing Dai, Yanyan Guo, Spectral characteristics of periodic tunnelling of chirped soliton in nonautonomous system with external potentials, J. Mod. Opt., 66(6): 665-673(2019)
[43]Rongcao Yang*, Fei Gao, Heping Jia, Jinping Tian, (2+1)-dimensional combined solitary waves in Kerr-and parabolic-law nonlinear metamaterials, Optik, 181: 465-473 (2019)
[44]高斐, 杨荣草*, 超材料中精确的空间啁啾暗孤子解及其传输特性,光学学报,39(2),0219001 (2019)
[45]徐建平,王佳云,杨荣草*,一种工作在S-C波段的双频段可开关超材料吸收/反射器,测试技术学报,33(6)535-540(2019)
[46]Jiayun Wang, Rongcao Yang*, Jianping Xu, Jinping Tian, Runbo Ma, Wenmei Zhang, Polarization-Controlled and Flexible Single-/Penta-Band Metamaterial Absorber, Materials, 11: 1619 (2018)
[47]Jiayun Wang, Rongcao Yang*, Jinping Tian, Xinwei Chen, Wenmei Zhang, A Dual-Band Absorber With Wide-Angle and Polarization Insensitivity, IEEE Antennas Wireless Propag. Lett., 17(7): 1242-1246 (2018)
[48]Heping Jia, Rongcao Yang*, Jinping Tian, Wenmei Zhang, Controllable excitation of higher-order rogue waves in nonautonomous systems with both varying linear and harmonic external potentials, Opt. Commun., 415: 93-100 (2018)
[49]Jie Gao, Rongcao Yang*, Jinping Tian, Wenmei Zhang, Control of interaction between femtosecond dark solitons in inhomogeneous optical fibers, Opt. Quant. Electron., 50: 286-1-286-10(2018)
[50]Jianping Xu , Jiayun Wang, Rongcao Yang*, Jinping Tian, Xinwei Chen, Wenmei Zhang, Frequency-tunable metamaterial absorber with three bands, Optik, 172: 1057-1063 (2018)
[51]王丽,杨荣草*,贾鹤萍,田晋平,薛文瑞,色散渐减光纤链中孤子的周期集总放大和恢复,光学学报,37(6),061900 (2019)
[52]Xuemin Min, Rongcao Yang*, Jinping Tian, Wenrui Xue, J. M. Christian, Exact dipole solitary wave solution in metamaterials with higher-order dispersion, J. Mod. Opt., 63(6):1-7 (2016)
[53]Rongcao Yang*, Xuemin Min, Jinping Tian, Wenmei Zhang, Tunable modulation instability in metamaterials with pseudo-quintic nonlinearity, self-steepening effect and delayed Raman response, Eur. Phys. J. D, 70(2), 1-9 (2016)
[54]Rongcao Yang*, Xuemin Min, Jinping Tian, Wenrui Xue and Wenmei Zhang, New types of exact quasi-soliton solutions in metamaterials, Phys. Scr., 91(2): 025201(2016)
[55]Rongcao Yang* and Yu Zhang, Exact combined solitary wave solutions in nonlinear metamaterials, J. Opt. Soc. Am. B, 28(28): 123-127(2011)
[56]Penggang Li, Rongcao Yang*, Zhiyong Xu, Gray solitary-wave solutions in nonlinear negative-index materials, Phys. Rev. E, 82(4): 046603
[57]Xiaoling Wu, RongcaoYang*, Dipole solitons in an optical lattice with longitudinal modulation, Optik, 121(16): 1466-1471 (2010)
[58]Rongcao Yang*, Ilya V. Shadrivov, Double-nonlinear metamaterials, Appl. Phys. Lett., 97(23): 231114-231114 (2010)
[59]Rongcao Yang*, Xiaoling Wu, Spatial soliton tunneling, compression and splitting, Opt. Express, 16(22):17759 (2008)
[60]Rongcao Yang*, Xiaoling Wu, Ruiyu Hao, Lu Li, Guosheng Zhou, Interactions between neighboring combined solitary waves, Opt. Commun., 276(1):149-157 (2007)
[61]Rongcao Yang*, Lu Li, Ruiyu Hao, Zhonghao Li, and Guosheng Zhou, Combined solitary wave solutions for the inhomogeneous higher-order nonlinear Schrödinger equation, Phys. Rev. E, 71(3): 036616 (2005)
[62]Rongcao Yang*, Ruiyu Hao, Lu Li, Xiaojuan Shi, Zhonghao Li, Guosheng Zhou, Exact Gray Multi-Soliton Solutions for Nonlinear Schrödinger Equation with Variable Coefficients, Opt. Commun., 253: 177-185 (2005).
[63]Rongcao Yang*, Ruiyu Hao, Lu Li, Zhonghao Li, Guosheng Zhou, Dark soliton solution for higher-order nonlinear Schrödinger equation with variable coefficients, Opt. Commun., 242: 285-293(2004)
[64]Rongcao Yang*, Wenrui Xue, Tao Huang, Guosheng Zhou, Research on the effects of air hole shape on the properties of microstructured optical fibers, Opt. Eng., 43(11): 2701(2004)
[1] 山西省自然科学基金,202203021221016,集成多功能可调控超表面器件研究,2023.01至2025.12,9万,主持。
[2] 国家自然科学基金,宇称时间对称非线性超材料中的孤子动力学研究,起止时间:2018.01-2021.12,批准号:61775126,资助金额:53万,主持。
[3] 国家自然科学基金,双非线性超材料中超短电磁脉冲的传输特性研究,批准号:61178013,起止时间:2012.1-2015.12, 资助金额:55万,主持。
[4] 山西省高等学校优秀成果培育项目, 金属-介质微纳材料中超短电磁脉冲传输特性研究,起止时间:2019.07-2022.7,批准号:2019KJ005,资助金额:5万。主持
[5] 国家自然科学基金,组合孤波在负折射率介质中的传输特性及相互作用研究,批准号:60878008,起止时间:2009.1-2009.12,资助金额:12万,主持。
[6] 山西省自然科学基金,可调谐宽频电磁超材料吸波体的研究,批准号:201601D011038,起止时间:2016.01-2018.12,资助金额:5万,主持。
[7] 教育部高等学校新教师基金,负折射率介质中组合孤波研究,批准号:200801081014,起止时间:2009.1-2011.12,资助金额:3.6万,主持。
[8] 山西省自然科学基金,啁啾光孤波在左手材料中的传输特性研究,批准号:2008012002-1,起止时间:2008.1-2010.12,资助金额:5万,主持。
[9] 山西省回国留学人员科研项目,双非线性超常介质的电磁特性研究,批准号:2011-002,起止时间:2008.1-2010.12,资助金额:5万,主持。
[10] 山西省留学回国人员科技活动择优资助人才项目,双频负折射材料的设计及电磁特性研究,批准号:201301,起止时间:2013.1-2015.12,资助金额:5万,主持。
[11] 国家自然科学基金面上项目,62071282,基于各向异性编码超表面的平面二维多波束天线的研究与设计,2021.01至2024.12,56万,第二承担人。
[12] 山西省自然科学基金,亚波长动态可调超材料吸收器的设计与应用研究,批准号:201801D121119,起止时间:2018.05-2021.5,资助金额:5万,第二承担人。
[13] 山西省自然科学基金,201901D111025,基于调制型超表面的小型化平面二维多波束天线关键技术研究,2018.05至2021.5,5万,结题,第二承担人。
[14] 山西省自然科学基金,非自治光纤系统中怪波与呼吸子的特性研究,起止时间:2018.05-2021.5,201801D221164,资助金额:3万,第二承担人。
[15] 国家自然科学基金:射频能量收集及其与太阳能收集一体化关键技术研究,批准号:61771295,起止时间:2018.01-2018.12,资助金额:16万,第二承担人。
[16] 国家自然科学基金,用微带贴片空间角度信息编码无芯片电子标签及其识别技术研究,批准号:61271160,起止时间:2013.1-2016.12,资助金额:81万,第二承担人。
[17] 山西省回国留学人员科研项目,无芯片电子标签的研究与设计,批准号:2012-014,起止时间:2012.7-2014.12,资助金额:5万,第二承担人。
[18] 山西省自然科学基金,用于UHF频段射频识别系统的差分微带天线研究,批准号:2012011013-3,起止时间:2012.1-2014.12,资助金额:3万,第二承担人。
[19] 国家自然科学基金,基于封装的射频前端与天线的协同设计,批准号:60771052,起止时间:2008.1-2010.12,资助金额:29万,第二承担人。
