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论著、论文和专利

近年来共发表刊物论文270余篇,国际会议论文160余篇,其中SCI索引论文180余篇。

年来出版的主要论著:

A. 专著:

[1] 郭立新,王蕊,吴振森编著,《随机粗糙面散射的基本理论和方法》,科学出版社,2010年1月。

[2] 郭立新,李江挺,韩旭彪编著,《计算物理学》,西安电子科技大学出版社,2009年9月。

[3] 郭立新,张民,吴振森 著,《随机粗糙面与目标复合电磁散射的基本理论和方法》,科学出版社,2014年10月。

[4] 张民,郭立新,聂丁,周平 著,《海面目标雷达散射特性与电磁成像》,科学出版社,2015年7月。

    

B. 国际刊物论文(2007年以后):

[1] Guo Lixin, Xu Runwen, “An efficient multiregion FEM-BIM for composite scattering from an arbitrary dielectric target above dielectric rough sea surfaces”, IEEE Trans. on Geosicence and Remote Sensing, Vol.53, No.7, pp.3885-3896, 2015. (SCI检索:ISI: 000351461000026, EI检索:20151300678146)

[2] Guo Lixin, Liang Yu, “A study of electromagnetic scattering from conducting targets above and below the dielectric rough surface”, Optics Express, Vol.19, No.7, pp.5785-5801, 2011. (SCI检索:ISI: 000288852700008, EI检索:20111413889914)

[3] Tian-Qi Fan, Li-Xin Guo, “A novel OpenGL-based MoM/SBR hybrid method for radiation pattern analysis of an antenna above an electrically large complicated platform”, IEEE Trans. on Antennas and Propagation, Vol.64, No.1, pp.201-209, 2016. (SCI检索:ISI: 000367952300022)

[4] Xiao Meng, Lixin Guo, Tianqi Fan, “Parallelized TSM-RT method for the fast RCS prediction of the 3D large scale sea surface by CUDA”, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, Vol.8, No.10, pp.4795-4804, 2015.  (SCI检索: 000368904000019, EI检索: 20155101697080)

[5]Chai, Shui-Rong, Guo Li-Xin, “Compressive sensing for monostatic scattering from 3D NURBS geometries”, IEEE Transactions on Antennas and Propagation, Vol.64, No.8, pp.3545-3553, 2016. (SCI检索: 000384007600029, EI检索: 20163302711388)

[6] Wei Yiwen, Guo Lixin, “Numerical simulation and analysis of the spiky sea clutter from the sea surface with breaking waves”, IEEE Trans. on Antennas and Propagation, Vol.63, No.11, pp.4983-4994, 2015. (SCI检索:ISI:000367730500039, EI检索:20154601547233)

[7] Cheng Mingjian, Guo Lixin, Li Jiangting, Zhang Yixin, “Channel capacity of the OAM-based free-space optical communication links with Bessel–Gauss beams in turbulent ocean”, IEEE Photonics Journal, Vol.8, No.1, 7901411, 2016. (SCI检索:ISI:000375479300062)

[8] J. M. Li, L. X. Guo, L. K. Lin, et al., “A new method of tipping calibration for ground-based microwave radiometer in cloudy atmosphere”, IEEE Trans. on Geoscience and Remote Sensing, Vol.52, No.9, pp.5506-5513, 2014. (SCI检索:ISI:000337171900020, EI检索:20141617598322)

[9] Wei Yiwen, Guo Lixin, “Application of multiregion model to EM scattering from a dielectric rough surface with or without a target above it”, IEEE Trans. on Antennas and Propagation, Vol.61, No.11, pp.5607-5620, 2013. (SCI检索:ISI:000326832300028, EI检索:20134817018611)

[10] Liang Yu, Guo Lixin, “The fast EPILE combined with FBM for electromagnetic scattering from dielectric targets above and below the dielectric rough surface”, IEEE Trans. on Geosicence and Remote Sensing, Vol.49, No.10, pp.3892-3905, 2011. (SCI检索:ISI:000296889000008, EI检索:20114114412538)

[11] Deng Jingya, Guo Lixin, “Broadband patch antennas fed by novel tuned loop”, IEEE Trans. on Antennas and Propagation, Vol.61, No.4, pp.2290-2293, 2013. (SCI检索:ISI:000319830800047, EI检索:20131616215828)

[12] Yunhua Wang, Yanmin Zhang, Haihua Chen, and Lixin Guo, “Effects of atmospheric stability and wind fetch on microwave sea echoes”, IEEE Trans. on Geoscience and Remote Sensing, Vol.52, No.2, pp.929-935, 2014. (SCI检索:ISI:000328941300012, EI检索:20140117151363)

[13] Wei Chen, Lixin Guo, “Research on the FDTD method of electromagnetic wave scattering characteristics in time-varying and spatially nonuniform plasma sheath”, IEEE Trans. on Plasma Science, Vol.44, No.12, pp.3235-3242, 2016.

[14] Zhang Pei, Bai Lu, Wu Zhen-Sen, Guo Li-Xin, Applying the parabolic equation to tropospheric groundwave propagation, IEEE Antennas and Propagation Magazine, Vol.58, No.3, pp.31-44, 2016.

[15] Run-Wen Xu, Li-Xin Guo, “A hybrid FEM/MoM technique for 3-D electromagnetic scattering from a dielectric object above a conductive rough surface”, IEEE Geoscience and Remote Sensing Letters, Vol.13, No.3, pp.314-318, 2016.

[16] Rui Wang, Lixin Guo, “Scattering from contaminated rough sea surface by iterative physical optics model”, IEEE Geoscience and Remote Sensing Letters, Vol.13, No.4, pp.500-504, 2016.

[17] Hong-Jie He, Li-Xin Guo, “A multihybrid FE-BI-KA technique for 3-D electromagnetic scattering from a coated object above a conductive rough surfac”, IEEE Geoscience and Remote Sensing Letters, Vol.13, No.12, pp.2009-2013, 2016.

[18] Tian-Qi Fan, Li-Xin Guo, “An improved backward SBR-PO/PTD hybrid method for the backward scattering prediction of an electrically large target”, IEEE Antennas Wireless Propag. Lett., Vol. 15, pp. 512-515, 2016. (SCI检索: ISI:000372419900017, EI检索:20161702282791)

[19] Chai Shui-Rong, Guo Li-Xin, Integration of CS into MoM for efficiently solving of bistatic scattering problems”,  IEEE Antennas Wireless Propag. Lett., Vol. 15, pp. 1771-1774, 2016.

[20] Meng Xiao, Guo Lixin, “An accelerated ray tracing method based on the TSM for the RCS prediction of 3-D large-scale dielectric sea surface”, IEEE Antennas Wireless Propag. Lett., Vol. 14, pp. 233-236, 2015. (SCI检索: ISI:000349625600030, EI检索:20150800540978)

[21] Jing-Ya Deng, Li-Xin Guo, “An efficient octree-based MoM-PO method for analysis of antennas on large platform”, IEEE Antennas Wireless Propagation Lett., Vol.14, pp 819-822, 2015. (SCI检索:ISI:000351750600016, EI检索:20151400719052)

[22] P. J. Yang, L. X. Guo, “Polarimetric Doppler spectrum of backscattered echoes from nonlinear sea surface damped by natural slicks”, Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 184, pp. 193-204, 2016.

[23] Cheng Mingjian, Guo Lixin, Zhang Yixin, Scintillationand aperture averaging for Gaussian beams through non- Kolmogorov maritime atmospheric turbulence channels, Optics Express, Vol.23, No.25, pp 32606-32621, 2015.  (SCI检索:ISI:000366687200096)

[24] Xu Runwen, Guo Lixin, “An efficient hybrid method for scattering from arbitrary dielectric objects buried under a rough surface: TM case”, Optics Express,Vol.22, No.6, pp.6844-6858, 2014. (SCI检索:ISI:000333579300064; EI检索:20141417539926)

[25] Fan Tianqi, Guo Lixin, “OpenGL-based hybrid GO/PO computation for RCS of electrically large complex objects”, IEEE Antennas Wireless Propag. Lett., Vol. 13, pp. 666-669, 2014. (SCI检索:ISI: 000335225500004, EI检索: 20141917696948)

[26] Li Juan, Guo Lixin, “Composite scattering of a plasma-coated target above dispersive sea surface by the ADE-FDTD method”, IEEE Geoscience and Remote Sensing Letters, Vol. 10, No. 1, pp.5-8, 2013. (SCI检索:ISI:000310899700001, EI检索:20123815453843)

[27] Liang Yu, Guo Lixin, “The EPILE combined with the Generalized-FBM for analyzing the scattering from targets above and on a rough surface”, IEEE Antennas Wireless Propag. Lett., Vol. 9, pp. 809-813, 2010.(SCI检索:ISI:000283244600001, EI检索:20103713224117)

[28] P. J. Yang, L. X. Guo, and C. G. Jia, “Electromagnetic scattering and Doppler spectrum simulation of time-varying oil-covered nonlinear sea surface”, Journal of Applied Remote Sensing, Vol. 10, pp.016015, 2016. (SCI检索: 000370776900001, EI检索:20160902038200).

[29] Wang Rui, Guo Lixin, “A fast PO-PO hybrid method for analysing the Doppler spectrum of a plasma- coated object above a rough sea surface: horizontal polarization”, International Journal of Remote Sensing, Vol.36, No.3, pp. 845-862, 2015.(SCI检索:ISI:000349639100010)

[30] Wei Yiwen, Guo Lixin, Meng Xiao, “The fast simulation of scattering characteristics from a simplified time varying sea surface”, International Journal of Antennas and Propagation, Volume 2015, Article ID 815913, 8 pages, 2015. (SCI检索:ISI:000355469500001, EI检索:20152300908450)

[31] Wei Yiwen, Guo Lixin, “Application of multiregion model to EM scattering from a dielectric target above or below a dielectric rough surface”, Waves in Random and Complex Media, Vol.26, No.2, pp.152-167, 2016. (SCI检索:ISI:000372165900005, EI检索:20160201794024)

[32] P. J. Yang and L. X. Guo “Doppler spectrum of polarimetric scattering field from two- dimensional time-varying nonlinear sea surfaces, Waves in Random and Complex Media, Vol. 26, No.4, pp. 516-534, 2016.

[33] Li, Juan, Guo, Li-Xin, Chai, Shui-Rong, Jiao Yong-Chang, “Electromagnetic scattering from a PEC object above a dielectric rough sea surface by a hybrid PO-PO method”, Waves in Random and Complex Media, Vol.25, No.1, pp 60-74, 2015. (SCI检索:ISI:000354874800007, EI检索:20144400139932)

[34] Xu Runwen, Guo Lixin, “Application of hybrid finite element-boundary integral algorithm for solving electromagnetic scattering from multiple objects over rough sea surface”, International Journal of Antennas and Propagation, Volume 2014, Article ID 301934, 10 pages, 2014. (SCI检索:ISI:000340772100001; EI检索:201440079752)

[35] Chungang Jia, Lixin Guo, “Graphics processor unit accelerated finite-difference time domain method for electromagnetic scattering from one-dimensional large scale rough soil surface at low grazing incidence”, Journal of Applied Remote Sensing, Vol. 8, pp. 084795-1-084795-10, 2014. (SCI检索:ISI:000348676300001)

[36] Chai Shuirong, Guo Lixin, and Wang Rui “PO-PO method for electromagnetic backscattering from a 2D arbitrary dielectric-coated conducting target located above a 1D randomly rough surface: horizontal polarization”, IET Microwaves, Antennas & Propagation, Vol.8, No.15, pp.1340-1347, 2014. (SCI检索:ISI:000345859700012, EI检索:20145000309860)

[37] Li Juan, Guo Li-Xin, and Chai Shui-Rong, “Composite electromagnetic scattering from an object situated above rough surface”, Applied Optics, Vol.53, No.35, pp.8189–8196, 2014. (SCI检索:ISI:000346006300006, EI检索:20145100350924)

[38] P. J. Yang, L. X. Guo, “Polarimetric scattering from two-dimensional dielectric rough sea surface with a ship-induced Kelvin wake”, International Journal of Antennas and Propagation, Vol. 2016, Article ID2474708, 14 pages, 2016. (SCI检索: 000369245600001, EI检索: 20160801997604).

[39] Li Ke, Guo Li-Xin, Li Juan, Scattering and doppler spectral analysis for a fast-moving target above time-varying lossy dielectric sea surface, International Journal of Antennas and Propagation, Vol.2016, Article ID8216309, 2016.

[40] Rui Wang, Shui-rong Chai,and Li-xin Guo, “Fast hybrid method for the study on monostatic scattering from plasma-coated target above a rough surface”, International Journal of Antennas and Propagation, vol. 2014, Article ID 762603, 13 pages, 2014. (SCI检索:ISI:000336155900001, EI检索:20142317785466) 

[41] Jia Chungang, Guo Lixin, “Time-Domain Physical Optics Method for the analysis of wide-band EM scattering from two-dimensional conducting rough surface”, International Journal of Antennas and Propagation, Vol.2013, Article ID 584260, 9 pages, http://dx.doi.org/10.1155/2013/584260. (SCI检索:ISI:000325017700001)

[42] Liu Zhongyu, Guo Lixin, “Efficient three-dimensional ray-tracing model for electromagnetic propagation prediction in complex indoor environments”, J. Opt. Soc. Am. A ,Vol. 30, No. 8 pp.1654-1660, 2013. (SCI检索:ISI: 000322591800024, EI检索:20133516674555)

[43] Li Ren-xian, Guo Li-xin, et al.,“Scattering of an axicon-generated Bessel beam by a sphere”, Optics Communications, Vol.307, pp.25-31, 2013. (SCI检索:ISI:000331129600005)

[44] Li Ren-xian, Guo Li-xin, Ding Cun-ying,“Debye series analysis of optical force induced by axicon-generated Bessel beam”, J. of Modern Optics, Vol.62, No.6, pp.493-502, 2015.

[45]Xu Run-Wen, Guo Li-Xin, He Hong-Jie, Study on scattering from multil[ant]ayer rough surfaces with an object buried with FEM/PML, Microwave And Optical Technology Letters, Vol.58, No.2, pp.429-433, 2016.

[46] Chai, Shui-Rong, Guo, Li-Xin, “A new method based on compressive sensing for monostatic scattering analysis”, Microwave and Optical Technology Letters, Vol.57, No.10, pp.2457-2461, 2015. (SCI检索:ISI:000360504500055, EI检索:20153101092996)

[47]  Guo Lixin, Liang Yu, “A high order integral SPM for the conducting rough surface scattering with the tapered wave incidence-TE case”, Progress in Electromagnetics Research, PIER 114, pp.333-352, 2011. (SCI检索:ISI:000288534600020, EI检索:20111313877693)

[48] Guo Lixin, Wang Anqi, “Parallel fast multiple method for electromagnetic scattering from one- dimensional large-scale two-la[ant]yered rough surfaces for large angles of incidence”, IET Microw. Antennas Propag., Vol. 5, No.15, pp.1813-1821, 2011. (SCI检索:ISI:0002991155 00005)

[49] Li Juan, Guo Lixin, “Investigation on wide-band scattering of a target above randomly rough surface by FDTD method,” Optics Express, Vol.19, No.2, pp.1091-1100,2011.(SCI检索:ISI:000286314600069, EI检索:20110413617951)

[50] Guo Lixin, Li Juan, Zeng Hao,“Bistatic scattering from a three-dimensional object above a two- dimensional randomly rough surface modeled with the parallel FDTD approach”, J. Opt. Soc. Am. A, Vol.26, No.11, pp.2383-2392, 2009. (SCI检索:ISI: 000272143600026, EI检索:20094812502108)

[51] Chai Shui-Rong, Guo Li-Xin, Fast analysis of bistatic scattering problems with compressive sensing technique, Journal of Electromagnetic Waves and Applications, Vol.30, No.10, pp.1755-1762, 2016. (SCI检索:ISI: 000382887600009, EI检索:20163202684072)

[52] Li Jiangman, Guo Lixin, “A Dual-frequency method of eliminating liquid water radiation to remotely sense cloudy atmosphere by ground-based microwave radiometer”, Progress in Electromagnetics Research, PIER 138, pp.629-645, 2013. (SCI检索:ISI: 000317963200041, EI检索:20131716230382)

[53] Guo Lixin, Wang Anqi, Majun, “Study on EM wave scattering from 2-D target above 1-D large scale rough surface with low grazing incidence by parallel MOM based on PC clusters”, Progress in Electromagnetics Research, PIER89, pp.149-166, 2009. (SCI检索:ISI:000 265387900011, EI检索:20090811912499)

[54] Guo Lixin, Wang Yunhua, “Investigation on the electromagnetic scattering of plane wave/ Gaussian beam by adjacent multi-particles”, Progress in Electromagnetics Research B, Vol.14, pp.219-245, 2009.

[55] Liu Zhongyu, Guo Lixin, and Tao Wei, “Full automatic preprocessing of digital map for 2.5D ray tracing propagation model in urban microcellular environment”, Waves in Random and Complex Media, Vol.23, No.3, pp.267-278, 2013. (SCI检索: 000323370900006, EI检索: 20133716734664)

[56]Cheng M J, Guo L X, Li J, et al. “Propagation of an optical vortex carried by a partially coherent Laguerre–  Gaussian  beam in turbulent ocean”, Applied Optics, Vol.55, No.17, pp.4642-4648, 2016.  (SCI检索: 0003378074200018)

[57]Cheng M J, Guo L X, Li J, et al. “Propagation properties of an optical vortex carried by a Bessel–Gaussian beam in anisotropic turbulence”, J. Opt. Soc. Am. A., Vol.33, No.8, pp.1442-1450, 2016.  (SCI检索: 000382005000003)

[58] Liu Zhongyu, Guo Lixin, and Fan Tianqi., “Microcellular propagation prediction model based on an improved ray tracing algorithm”, J. Opt. Soc. Am. A., Vol.30, No.11, pp.2372-2380, 2013. (SCI检索: 000327185000027)

[59] Wang Yunhua, Guo Lixin, Wu Zhensen, “Electromagnetic scattering of Gaussian beam by 2-D targets”,Radio Science, Vol.42, No.4, RS4012, 2007. (SCI检索:ISI:000248289800001, EI检索:20094312396830)

[60] Li Juan, Guo Lixin, “FDTD method investigation on the polar-metric scattering from 2-D rough surface”, Progress in Electromagnetics Research, PIER 101, pp.173-188, 2010.(SCI检索:ISI: 000275368300012, EI检索:20101112769915)

[61] Li Jiangting, Guo Lixin, “Research on electromagnetic scattering characteristics of reentry vehicles and blackout forecast model”, J. of Electromagnetic Waves and Applications, Vol.26, No.13, pp.1767-1778, 2012. (SCI检索:ISI 000308106300013)

[62] Wang Anqi, Guo Lixin, “Numerical simulations of electromagnetic scattering from 2D rough surface: Geometric modeling by NURBS surface”, J. Electromagnetic Waves and Applications, Vol.24, No.10, pp.1315-1328, 2010. (SCI检索:ISI: 000280517000004, EI检索:20120614755334 )

[63] Deng Jingya, Guo Lixin, “Multi-band antenna using mushroom-shaped self-complementary resonators”, J. Electromagnetic Waves and Applications, Vol.25, No.17-18, pp.2497-2504, 2011. (SCI检索:ISI: 000299259800018, EI检索:20115214643899)

[64] Deng Jingya, Guo Lixin, “Narrow band notches for ultra-wideband antenna using electromagnetic band-gap structures”, J. Electromagnetic Waves and Applications, Vol.25, No.17-18, pp.2320-2327, 2011. (SCI检索:ISI: 000299259800002, EI检索:20115214643901)

[65] Deng Jingya, Guo Lixin, “Dual-band antenna with inserted edge resonators and U-slot DGS”, J. Electromagnetic Waves and Applications, Vol.26, No.10, pp.1292-1299, 2012. (SCI检索:ISI: 000307846400003)

[66] Ma Baoke, Guo Lixin, “Statistical characteristics of the multi-path time delay and Doppler shift of a radar wave propagation through the ionosphere”, Progress in Electromagnetics Research, PIER 138, pp.479-497, 2013. (SCI检索:ISI: 000317963200032, EI检索:20131516204982)

[67] Li Juan, Guo Lixin, “FDTD investigation on electromagnetic scattering from two-la[ant]yered rough surfaces”, Applied Computational Electromagnetic Society Journal, Vol.25, No.5, pp.450-457, 2010.(SCI检索:ISI: 000281450000007, EI检索:20104313321926)

[68] Wang Anqi, Guo Lixin, “Fast numerical method for electromagnetic scattering from an object above a large-scale la[ant]yered rough surface at large incident angle: vertical polarization”, Applied Optics, Vol.50, No.4, pp.500-508, 2011. (SCI检索:ISI:000286805600028, EI检索:20110613645370)

[69] Li Jie, Guo Lixin,“Hybrid FE-BI-KA method in analyzing scattering from dielectric object above sea surface”, IET Electronic Letters, Vol.47, No.20, pp.1147-1148,2011. (SCI检索:ISI:000295375300025)

[70] Wang Anqi, Guo Lixin, “Higher order method of moments for bistatic scattering from 2D PEC rough surface with geometric modeling by NURBS surface”, Progress in Electromagnetics Research, PIER 130, pp.85-104, 2012. (SCI检索:ISI:000308582900005, EI检索:20123415356853)

[71] Li Jie, Wei Bing, He Qiong, Guo Lixin, Ge Debiao, “Time-domain iterative physical optics method for analysis of EM scattering from the target half buried in rough surface: PEC case”, Progress in Electromagnetics Research, Vol. 121, pp. 391-408, 2011. (SCI检索:ISI:000296979600022, EI检索:20114714542383 )

[72] Liu Songhua, Guo Lixin, “Negative refraction in an anisotropic me[ant]ta-material with a rotation angle between the principal axis and the planar interface”, Progress in Electromagnetics Research, PIER 115, pp.243-257, 2011.(SCI检索:ISI:000289884000015, EI检索:20111813955883)

[73] F.G. Mitria, R.X. Li, L.X. Guo, “Resonance scattering of a dielectric sphere illuminated by electromagnetic Bessel non-diffracting (vortex) beams with arbitrary incidence and selective polarization”, Annals Physics, 361(2015):120-147. (SCI检索: ISI:000360418800011)

[74] Sheng Xu, Bei-ChenZhang, Rui-YuanLiu, Li-Xin Guo, “Comparative studies on ionospheric climatological features of NmF2 among the Arctic and Antarctic stations”, Journal of Atmospheric and Solar-Terrestrial Physics, Vol.119, pp.63-70, 2014. (SCI检索:ISI:000342890100007, EI检索:20143017991039)

[75] Liu Zhongyu, Guo Lixin, “A Quasi three-dimensional ray tracing method based on the virtual source tree in urban microcellular environments”, Progress in Electromagnetics Research, PIER 118, pp.397-414, 2011. (SCI检索:ISI: 000292869000023, EI检索:20113014183311)

[76] Li Renxian, Ren Kuanfang, Han Xiang’e, Wu Zhensen, Guo Lixin, Gong Shuxi, “Analysis of radiation pressure force exerted on a biological cell induced by high-order Bessel beams using Debye series”, Journal of Quantitative Spectroscopy and Radiative Transfer, Vol.126, pp.69-77, 2013.

[77] Wang Rui, Guo Lixin, “Study on electromagnetic scattering from the time-varying lossy dielectric ocean and a moving conducting plate above it”, J. Opt. Soc. Am. A., Vol.26, No.3, pp.517-529, 2009. (SCI检索:ISI:000264726600007, EI检索:20091412016779)

[78] Li Juan, Guo Lixin, “Message-passing-interface-based parallel FDTD investigation on the EM scattering from a 1-D rough sea surface using uniaxial perfectly matched la[ant]yer absorbing boundary”, J. Opt. Soc. Am. A., Vol.26, No.6, pp.1494-1502, June 2009. (SCI检索:ISI:000 267499600020, EI检索:20093012220335)

[79] Li Jie, Guo Lixin, “Investigation on scattering from a plasma coated target over rough sea surface using a multi-hybrid method”, Waves in Random and Complex Media, Vol.22, No.3, pp.344-355, 2012. (SCI检索:ISI:000306509000003, EI检索:20123215310507)

[80] Li Jie, Guo Lixin, “Frequency response of 1D dispersive sea surface by the ADE-FDTD algorithm”, Waves in Random and Complex Media,Vol.22, No.2, pp.305-316, 2012. (SCI检索:ISI:000306508300011, EI检索:20121714966771)

[81] Xu R, Guo L X, Meng X, “Scattering from a target above rough sea surface with breaking water wave by an iterative analytic-numerical method”, Progress In Electromagnetics Research M, Vol.41, pp.115-123, 2015. (EI检索:20150900591622)

[82] P. J. Yang, L. X. Guo, Q. Wang, “Circularly polarized wave scattering from two-dimensional dielectric rough sea surface”, Progress in Electromagnetics Research M, Vol.44, pp.119-126, 2015. (EI检索:201551011696409)

[83] Bao-Ke Ma, Li-Xin Guo, Hong-Tao Su, Bei-Chen Zhang, “Research on the ionospheric ion velocity distribution and the incoherent scattering spectra of the radar with the 16-moments approximation for the relaxation collision model”, Optik, Vol.125, pp.75-83, 2014. (SCI检索:ISI:000329537300016; EI检索:20134516942774)

[84] Xu R, Guo L X, Meng X., “Analysis of scattering fromdielectric rough surfaces by hybrid FEM/BIE”, Progress In Electromagnetics Research M, Vol.34, pp.107-116, 2014. (EI检索:20140217175392)

[85] Ma Baoke, Guo Lixin, “Simulated ion velocity distribution and its incoherent scattering spectrum in the high- latitude ionosphere”, Journal of the Korean Physical Soc., Vol.63, No.8, pp.1666-1674, 2013. (SCI检索:ISI:000326590100025)

[86] Deng Jing Ya, Guo Lixin, “Wideband circularly porlarized suspended patch antenna with indented edge and gap-coupled feed”, Progress in Electromagnetics Research, PIER 135, pp.151-159, 2013. (SCI检索:ISI:000313890800010)

[87] Wei Bing, Zhou Yun, Ge Debiao, Guo Lixin, “A general finite difference time domain method for hybrid dispersive media model”,Waves in Random and Complex Media,Vol.21, No.2, pp.336-347, 2011. (SCI检索:ISI:000289632700008, EI检索:20112314035087)

[88] Li Juan, Guo Lixin and Zeng Hao,“FDTD investigation on bistatic scattering from two- dimensional rough surface with UPML absorbing condition”,Waves in Random and Complex Media, Vol.19, No.3, pp.418-429, 2009. ( SCI检索:ISI: 000274750800004, EI检索:20094912528627)

[89] Ma Jun, Guo Lixin and Zeng Hao,“Study on 1D large scale rough surface scattering at low grazing incident angle by parallel MOM based on PC clusters”, Waves in Random and Complex Media, Vol.19, No.4, pp.585-599, 2009.(SCI检索:ISI:000274751000002)

[90] Li Juan, Guo Lixin, “FDTD investigation on the electromagnetic scattering from a target above a randomly rough sea surfaces”, Waves in Random and Complex Media, Vol.18, No.4, pp.641-650, 2008. (SCI检索:ISI:000259997500007, EI检索:20084411667312)

[91] Li Juan, Guo Lixin, “FDTD investigation on the bistatic scattering from a target above two-la[ant]yered rough surfaces using UPML absorbing condition”, Progress in Electromagnetics Research, PIER 88, pp.197-211, 2008.(SCI检索:ISI:000265387800012)

[92] Wang Rui, Guo Lixin, “Numerical simulations of wave scattering from two-la[ant]yered rough surface”, Progress in Electromagnetic Research B, Vol.10, pp.163-175, 2008.

[93] Wang Yunhua, Zhang Yanmin, He Mingxia, and Guo Lixin, “Calculation of electromagnetic scattering from a two-dimensional target in the vicinity of a plane surface by a hybrid method”,J. Opt. Soc. Am. A, Vol. 25, No. 6, pp.1232-1239, 2008. (SCI检索:ISI: 000257156000003, EI检索: 20083611516584)

[94] Qin Santuan, Gong Shuxi, Guo Lixin, “A TDIE/TDPO hybrid method for the analysis of TM transient scattering from two-dimensional combinative conducting cylinders”, Progress in Electromagnetics Research, PIER 102, pp.181-195, 2010. (SCI检索:ISI:000277342000012, EI检索:20102012945651)

[95] Wu Zhensen, Zhang Jinpeng, Guo Lixin, “An improved two-scale model with volume scattering for the dynamic ocean surface”, Progress in Electromagnetics Research, PIER 89, pp.39-56, 2009. (SCI检索:ISI:000265387900004, EI检索:20090811912492)

[96] Wu Zhensen, Wei Hongyan, Yang Ruike, Guo Lixin, “Study on scintillation considering inner- and outer-scales for laser beam propagation on the slant path through the atmospheric turbulence, Progress in Electromagnetics Research, PIER 80, pp.277-293, 2008. (SCI检索:ISI:000253081900014, EI检索:20081111146129)

[97] Wei Bing, He Qiong, Li Jie, Li Renxian, Guo Lixin, “Transient response of thin wire above a la[ant]yered half-space using TDIE/FDTD hybrid method”, International Journal of Antennas and Propagation, 2012. (SCI检索:ISI: 000301409600001, EI检索:20121214876378)

[98] Wei Qun, Guo Lixin, Wei Bing , Yang Ziyuan, “Analysis of optical spectra and SH parameters of V3+ centers in ZnO crystals”, Optical Materials, Vol.34 , No.7, pp.1092-1094, 2012. (SCI检索:ISI: 000303071500018, EI检索:20121214873963)

[99] Wei Qun, Brik Mikhail G, Guo Lixin, Wei Bing, “Investigations of g factors for the 2E state of V2+ ions in Al2O3 crystals”, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, Vol. 97, pp.50-53, 2012. (SCI检索:ISI: 000310395800008, EI检索:20123915461960)

[100] Wei Qun , Guo Lixin, Wei Bing, Zhu Xuanmin, “Optical spectra and defect structure for v2 ions in ZnS at low temperature”, Physica B: Condensed Matter, Vol. 407, No. 14, pp.2808-2810, 2012. (SCI检索:ISI: 000305468000029, EI检索:20122215063412)

[101] Wei Qun, Guo Lixin, Yang Ziyuan, Wei Bing, Zhang Dongyun, “Studies of the defect structure for V3+ ions in wurtzite structure ZnO”, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, Vol.82 , No.1, pp.137-139, 2011. (SCI检索:ISI: 000295956500021, EI检索:20113814342208)

[102] Wei Qun, Guo Lixin , Yang Ziyuan, Wei Bing, “Spin-spin and spin-other-orbit interactions of spin-Hamiltonian parameters for 3d2(8) Ions in Al2O3 crystals”, Acta Physica Polonica A, Vol.119, No.6, pp.857-859, 2011. (SCI检索:ISI: 000291836700022, EI检索:20112414051839)

[103] Wei Qun, Guo Lixin, Yang Ziyuan, Wei Bing, “Studies of the g factors of the ground 4A2 and the first excited 2E state of Cr3+ ions in emerald”, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, Vol.79 , No.5, pp.1187-1190, 2011. (SCI检索:ISI: 000293363000049, EI检索:20112914150832)

 

C. 国内核心刊物论文(2007年以后):

[1] Guo Lixin,Gou Xueyin, “Bidirectional reflectance distribution function modeling of one-dimensional rough surface in the microwave band”, Chinese Physics B, Vol.23, No.11, pp. 114102-1-114102-9, 2014. (SCI检索:ISI:000345124600033, EI检索:201448239056)

[2] Guo Lixin, Wang Rui, Wu Zhensen, “Application of the method of equivalent edge currents to composite scattering from the cone-cylinder above a dielectric rough sea surface”,Chinese Physics B, Vol.19, No.4, pp.044102-1-044102-12, 2010. (SCI检索:ISI:000276936200040, EI检索:20101812905025)

[3] Li Jie, Guo Lixin, “Multi-hybrid method for Investigation of EM scattering from inhomogeneous object above a dielectric rough surface”, Science in China, Series G: Physics, Mechanics and Astronomy, Vol.55, No.10, pp.1781-1790, 2012. (SCI检索:ISI:0003089538 00009, EI检索:20123915468630)

[4] Guo Lixin, Wang Yunhua, “Study on electromagnetic backscattering and Doppler spectrum of a moving spherical target above time-varying sea surface”, Science in China, Series G: Physics, Mechanics and Astronomy,Vol.51, No.3, pp.269-281, 2008. (SCI检索:ISI: 000253756000007, EI检索:20082811356893)

[5] Xu Runwen, Guo Lixin, “An iterative analytic–numerical method for scattering from a target buried beneath a rough surface”,Chinese Physics B, Vol.23, No.11, pp. 114101-1-114101-6, 2014. (SCI检索:ISI:00034512600032, EI检索:201448238606)

[6] Wang Anqi, Guo Lixin,“Application of multiregion model to the EM scattering from a rough surface with or without a target above it”, Chinese Physics B, Vol.20, No.5, pp. 050201-1-050201-11, 2011. (SCI检索:ISI:000290665200001, EI检索:20112214015364)

[7] Wang Anqi, Guo Lixin,“Electromagnetic scattering from a two-la[ant]yered rough interfaces with a PEC object: vertical polarization”,Chinese Physics B, Vol.20, No.5, pp.050202-1-05 0202-10, 2011. (SCI检索:ISI: 000290665200002, EI检索:20112214015365)

[8] Song Jiuxu, Yang Yintang, Liu Hongxia, Guo Lixin, “Negative differential resistance in an (8, 0) carbon/boron nitride nanotube heterojunction”, Journal of Semiconductors, Vol.32, No. 4, 2011. (EI检索:20111913959806)

[9] Yang Pengju, Guo Lixin,“Doppler spectrum analysis of time-evolving sea surface covered byoil spills”,Chin. Phys. Lett., Vol.32, No.4, pp.044101-1~044101-4, 2015. (SCI检索:ISI: 000352432800012)

[10] Yang Chao, Jin Wei, Guo Lixin, “Electromagnetic wave propagation over oil-covered sea surface”, Chin. Phys. Lett., Vol.29, No.7, pp. 074210-1~ 074210-4, 2012. (SCI检索:ISI: 000306551200034)

[11] Wang Rui, Guo Lixin, “Electromagnetic scattering from rough sea surface with PM spectrum covered by an organic film”,Chin. Phys. Lett., Vol.28, No.3, pp.034101-1~034101-4, 2011. (SCI检索:ISI: 000288120900019)

[12] Li Jie, Guo Lixin, “Electromagnetic scattering from randomly rough surfaces with hybrid FEM/BIE”,Chin. Phys. Lett., Vol.28, No.10, pp.104101-1~104101-4, 2011. (SCI检索:ISI: 000295975100021)

[13] Yang Chao, Guo Lixin, Wu Zhensen, “Investigation on global positioning system signal scattering and propagation over the rough sea surface”, Chinese Physics B, Vol.19, No.5, pp.054101-1-0544101-9, 2010. (SCI检索:ISI:000277372200036, EI检索:20102212974086)

[14] Liu Wei, Guo Lixin, Wu Zhensen, “Polarimetric scattering from a two-dimensional improved sea fractal surface”, Chinese Physics B, Vol.19, No.7, pp.074102-1-074102-9, 2010. (SCI检索:000280186500035; EI检索:11484788)

[15] Wang Rui, Guo Lixin, “Hybrid method for investigation ofelectromagnetic scattering from conducting target above the randomly rough surface”, Chinese Physics B, Vol.18, No.4, pp.1503-1511, 2009. (SCI检索:ISI:000264290900036, EI检索:20093012220918)

[16] Wang Rui, Guo Lixin, “Electromagnetic scattering from two-la[ant]yer rough interfaces in the Kirchhoff approximation”, Chinese Physics B, Vol.18, No.8, pp.3422-3430, 2009. (SCI检索:ISI: 000268802300049, EI检索:20093512274549)

[17] Li Juan, Guo Lixin, “Investigation of composite electromagnetic scattering from ship-like target on the randomly rough sea surfaces using FDTD method”Chinese Physics B, Vol.18, No.7, pp.2757-2763, 2009. (SCI检索:ISI: 000267821200022, EI检索:20093512273363)

[18] Ma Jun, Guo Lixin, “Study of MPI based on parallel MOM on PC clusters for EM-beam scattering by 2-D PEC rough surfaces”, Chinese Physics B, Vol.18, No.8, pp.3431-3437, 2009. (SCI检索:ISI: 000268802300050, EI检索:20093512274548)

[19] Li Juan, Guo Lixin, “FDTD investigation on electromagnetic scattering from two-la[ant]yered rough surfaces under UPML absorbing condition”Chin. Phys. Lett., Vol.26, No.3, pp.034101-1~034101-4, 2009. (SCI检索:ISI:000263601300025)

[20] Wang Rui, Guo Lixin, “Investigation on transient electromagnetic scattering from a randomly roughsurface and the perfectly electric conductor target with an arbitrary cross section above it”, Science in China, Series G: Physics, Mechanics and Astronomy,Vol.52, No.5, pp.665-675, 2009. (SCI检索:ISI:000265734700002, EI检索:20092012079509)

[21] Ren Yuchao, Guo Lixin, “Two-frequency mutual coherence function and its applications to pulse scattering by random rough surface”, Science in China, Series G: Physics, Mechanics and Astronomy,Vol.51, No.2, pp.157-164, 2008. (SCI检索:ISI:000252648100006, EI检索:20082811356905)

[22] Ren Xincheng, Guo Lixin, “Study on electromagnetic wave transmission from slightly Gaussianrough surface e of la[ant]yered medium”, Chin. Phys. Lett.,. Vol.25, No.1, pp.101-104, 2008. (SCI检索:ISI: 000252613500028)

[23] Ren Xincheng, Guo Lixin, “Investigation on electromagnetic scattering from rough soil surface of la[ant]yered medium using the small perturbation method”, Chinese Physics B, Vol.17, No.7, pp.2491-2498, 2008. (SCI检索:ISI000257843000024, EI检索:20083511483071)

[24] Wang Yunhua, Zhang Yanmin, He Mingxia, Guo Lixin, “Solution of scattering from rough   surface with a 2D target above it by a hybrid method based on the reciprocity theorem and the forward-backward method”, Chinese Physics B, Vol.17, No.10, pp.3696-3703, 2008. (SCI检索:ISI: 000260263800027, EI检索:20084811739140)

[25] Ren Xincheng, Guo Lixin, “Fractal characteristics investigation on electromagnetic scattering from 2D Weierstrass fractal dielectric rough surface”, Chinese Physics B, Vol.17, No.8, pp.2956-2962, 2008. (SCI检索:ISI000258480200032, EI检索:20084811734866)

[26] Ren Yuchao, Guo Lixin, “Scattering from Alpha-stable non-Gaussian distributed surfaces”, Chin. Phys. Lett.,.Vol.24, No.1, pp.97-100, 2007. (SCI检索:ISI:000243377900027)

[27] Ren Yuchao, Guo Lixin, “A time domain algorithm on the reconstruction of rough surfaces”, Chin. Phys. Lett.,.Vol.24, No.3, pp.702-705, 2007. (SCI检索:ISI:000244436500031)

[28] Zhang Yanmin, Wang Yunhua, Guo Lixin, “Study of scattering from time-varying Gerstners sea surface using second order small slope approximation”, Chinese Physics B, Vol.19, No.5, pp.054103 -1-054103-9, 2010. (SCI检索:ISI:000277372200038; EI检索:20102212974084)

[29] Wang Yunhua, Zhang Yanmin, Guo Lixin, “Investigation on the Doppler shifts induced by 1-D ocean surface wave displacements by the first order small slope approximation theory: comparison of hydrodynamic models”, Chinese Physics B, Vol.19, No.7, pp.074103 -1-074103-8, 2010. (SCI检索:ISI:000280186500036 ; EI检索:20104813430346)

[30] Wang Yunhua, Zhang Yanmin,Guo Lixin, “Doppler shifts of backscattering fields from one dimensional linear and nonlinear ocean surface by SSA-II”, Chinese Physics Lett., Vol.27, No.10, pp.104101-1-074103-8, 2010. (SCI检索:ISI:000282870400023)

[31] Ma Jun, Guo Lixin, “Unification of the Kirchhoff approximation and the method of moment for optical scattering from lossy dielectric Gaussian random rough surface”, Chinese Optics Letters, Vol.7, No.3, pp.259-262., 2009. (SCI检索:ISI:000266970800026, EI检索:20092212098305)

[32] Xue Kun, Guo Lixin, “16-moment approximation for ion velocity distribution and its application in calculations of incoherent scattering spectra”, Plasma Science and Technology, Vol.11, No.2, pp.152-158, 2009. (SCI检索:ISI:000264950900005, EI检索:20091912072033)

[33] Ren Xincheng, Guo Lixin, “Optical wave transmission through slightly Gaussian rough surface of la[ant]yered medium” Chinese J. of Computational Physics, Vol.26, No.3, pp.422-429, 2009. (EI检索:20092412122846)

[34] Zhu Xiaomin, Ren Xincheng, Guo Lixin, “FDTD investigation on electromagnetic scattering of 1D band-limited weierstrass fractal la[ant]yered land surface and a conducting column with rectangular cross-section”, Chinese J. of Computational Physics, Vol.29, No.3, pp.399-405, 2012. (EI检索:20122815240401)

[35] Wang Ping, Yang Yintang, Liu Zengji, ShangTao, Guo Lixin, “Evaluation of DC I-V characteristics and small signal parameters of 4H-SiC me[ant]tal-semiconductor field effect transistors”, Chinese J. of Computational Physics, Vol.28, No.1, pp.145-151, 2011. (EI检索:20111313881916)

[36] Ren Xincheng, Guo Lixin, “Study on optical wave scatteringfrom slightly Gaussianrough surface of la[ant]yered medium”, Chinese Optics Letters, Vol.5, No.10, pp.605-608, 2007. (SCI检索:ISI:000255024400017, EI检索:20074710936102)

[37] Ma Baoke, Guo Lixin, Su Hongtao , Zhang Beichen,Hu Hongqiao, “Incoherent scatter spectrum of ionospheric plasma with an anisotropic temperature ion distribution”, Astrophys Space Sci, Vol.340, No.2, pp.237–243, 2012. (SCI检索:ISI:000305784100004)

[38] Zhang Yabin , Wu Jian, Guo Lixin, Zhao Zhenwei, Lin Leke, Xu Bin, Zhang Rui, “The quasi 3-D ray tracing model in microcellular environment”,Chinese Journal of Radio Science,Vol. 27, No. 5, pp.954-959,2012. (EI检索:20125015786868)

[39] Wang Ping, Yang Yintang, Guo Lixin, Shang Tao, Liu Zengji, “Study of the Ohmic contact property of SiC”, Journal of Xidian University, Vol.38, No.4, pp.38-41, 2011. (EI检索:20113914375368)

[40] Ren Xincheng, Guo Lixin, Miao Hongmei,“Characteristics of electromagnetic wave transmission coefficient through exponential distribution rough surface of stratified medium”, High Power Laser and Particle Beams, Vol.22, No.1,  pp.135-139, 2010. (EI检索:20100812730981)

[41] Wang Yunhua, Zhang Yanming, Guo Lixin, “Composite electromagnetic scattering from two adjacent finite length cylinders”, ACTA PHYSICA SINICA, Vol.60, No.2, 2011. (SCI检索:ISI: 000287947000027)

[42] Wei Bing, He Qiong, Li Jie, Ge Debiao, Guo Lixin, “A novel method to calculate transient response of thin-wire structure above the la[ant]yered lossy half-space”, ACTA PHYSICA SINICA, Vol.60, No.10, 2011. (SCI检索:ISI: 000300718700036)

[43] 郭立新,王运华,吴振森,“时变海面与运动球形目标后向复合电磁散射及多普勒谱研究”,中国科学G辑:物理学,力学,天文学,Vol.38, No.1, pp.34-45, 2008。

[44] 郭立新,王蕊,“二维粗糙海面散射回波多普勒谱频移及展宽特征研究”,物理学报,Vol.57,No.6,pp.3464-3472, 2008。(SCI检索:ISI: 000256874600028, EI检索:20082811368768)

[45] 郭立新,王蕊,“时变海面与其上方导体平板的复合电磁散射研究”,地球物理学报,Vol.51, No.6, pp.1695-1703,2008。(SCI检索:ISI:000261313500009)

[46] 郭立新,王运华,“地、海面与其上方三维简单目标的复合电磁散射研究”,目标与环境特性研究,pp.10-30, 2008年第1期。

[47] 郭立新,麻军,“MPI并行矩量法计算二维粗糙面波束电磁散射”,系统工程与电子技术, Vol.32, No.9, pp.1841-1845, 2010。(EI检索:20104213309532 )

[48] 王蕊,郭立新,“粗糙面及其上方任意形状截面导体目标的瞬态散射”,中国科学G辑:物理学,力学,天文学Vol.39, No.2, pp.201-212,2009。

[49] 任玉超,郭立新,“双频互相干函数及在粗糙面脉冲散射中的应用”,中国科学G辑:物理学,力学,天文学,Vol.37, No.5, pp.582-589,2007。

[50] 柴水荣,郭立新,“基于压缩感知的一维海面与二维舰船复合后向电磁散射快速算法研究”,物理学报,Vol.64,No.6,pp.060301-1-060301-8, 2015。(SCI检索:ISI:000351752600002,EI检索:20151400700036)

[51] 李文龙,郭立新,“含卷浪Pierson-Moscowitz谱海面电磁散射研究”,物理学报,Vol.63,No.16,pp.164102-1-164102-9, 2014。(SCI检索:ISI:000341427000021,EI检索:20143907147)

[52] 范天奇,郭立新,“含泡沫面元模型的海面电磁散射研究”,物理学报,Vol.63,No.21,pp.214104-1-214104-10, 2014。(SCI检索:ISI:000344616700014)

[53] 徐润汶,郭立新,“有限元/边界元积分方法在海面及其上方弹体目标电磁散射中的应用”,物理学报,Vol.62,No.17,pp.170301-1-170301-7, 2013。(SCI检索:ISI:000324875300004,EI检索:20133916792281)

[54] 刘伟,郭立新,“沙丘粗糙面的二次极化电磁散射”,物理学报,Vol.62,No.14,pp.144213-1 -144213-7, 2013。(SCI检索:ISI:000323623700037)

[55] 毛媛,郭立新,“基于高频雷达多普勒谱提取风向的一种新方法”,物理学报,Vol.61,No.4,pp.044201-1-044201-6, 2012。(SCI检索:ISI:000301563800033)

[56] 李俊成,郭立新,“THz频段单面左手材料的设计及仿真研究”,物理学报,Vol.61,No.12,pp.124102-1-124102-8, 2012。(SCI检索:ISI:000306394400025)

[57] 梁玉,郭立新,“粗糙面重构问题的混合算法研究”,物理学报,Vol.60,No.3,pp.034102-1-034102-9, 2011。(SCI检索:ISI:000288925700036)

[58] 秦三团,郭立新,“二维随机粗糙面上导体目标复合瞬态散射的混合算法”,物理学报,Vol.60,No.7,pp.074217-1-074217-9, 2011。(SCI检索:ISI:000293366300053)

[59] 王蕊,郭立新,“不同土壤类型的粗糙地面与其下方埋藏目标复合电磁散射研究”,物理学报,Vol.59,No.5,pp.3179-3186, 2010。(SCI检索:000277733700041)

[60] 任新成,郭立新,“具有fBm特征的分层介质粗糙面电磁散射的特征研究”,物理学报,Vol.58,No.3,pp.1627-1634, 2009。(SCI检索:ISI:000264781600039)

[61] 梁玉,郭立新,“气泡/泡沫覆盖粗糙海面电磁散射的修正双尺度法研究”物理学报,Vol.58, No.9, pp.6156-6166, 2009。(SCI检索:ISI:000270156300045)

[62] 王蕊,郭立新,“粗糙海面及其上方导体目标复合电磁散射的混合算法研究”,物理学报,Vol.57,No.6,pp.3473-3480, 2008。(SCI检索:ISI: 000256874600029, EI检索:20082811368769)

[63] 王运华,郭立新,吴振森,“平行柱体对平面波/高斯波束电磁散射”,物理学报,Vol.56,No.1,pp.186-194, 2007。(SCI检索:ISI:000243511600030, EI检索:20071110487945)

[64] 杨俊岭,郭立新,“基于未充分发展海谱的分形海面模型及其电磁散射研究”物理学报,Vol.56,No.4,pp.2106-2114, 2007。(SCI检索:ISI:000245844300043, EI检索:20071910595322)

[65] 任新成,郭立新,焦永昌,“雪层覆盖的粗糙地面与上方矩形截面柱复合电磁散射的时域有限差分法研究”,物理学报,Vol.61,No.14,pp.144101-1-144101-10, 2012。(SCI检索:ISI: 000307422900024)

[66] 王运华,张彦敏,郭立新,“平面上方二维介质目标对高斯波束的电磁散射研究”,物理学报,Vol.57,No.9,pp.5529-5536, 2008。(SCI检索: ISI:000259170800029)

[67] 田炜,任新成,郭立新,“海面与其上方双矩形截面柱复合散射的混合算法研究”,物理学报,Vol.64,No.17,pp.174101-1-174101-7, 2015。(SCI检索:ISI:000362976900012,EI检索:20153801295317)

[68] 朱小敏,任新成,郭立新,“一维带限Weierstrass分形分层地面与矩形截面导体柱复合电磁散射FDTD研究”,计算物理,Vol.29, No.3, pp.399-405, 2012。

[69] 王运华,郭立新,“改进的一维分形模型在海面电磁散射中的应用”,电子学报,Vol.35, No.3, pp.478-483,2007。(EI检索:20072010603098)

[70] 李江挺,郭立新,胡红桥,“空间尘埃等离子体电磁散射特性研究”,地球物理学报,Vol.53, No.12, pp.2829-2835, 2010。(SCI检索:ISI:000285862200005)

[71] 薛昆,郭立新,“离子分布函数的20矩近似及其在非相干散射谱中的应用”,地球物理学报,Vol.52, No.4, pp.878-886, 2009。(SCI检索:ISI:000265665400003)

[72] 李广成,郭立新,刘伟,“海面正置长方体目标复合散射极化特征”,电波科学学报,Vol.29,No.5,pp.853-857, 2014。( EI检索:20144900285953)

[73] 李广成,郭立新,“障碍物对蒸发波导中电波传播影响研究”,电波科学学报,Vol.26,No.4,pp.621-627, 2011。(EI检索:20113914370750)

[74] 郭立新,李宏强,“改进DMF算法研究粗糙海上蒸发波导中的电波传输特性”,电波科学学报,Vol.24, No.3, pp.414-421, 2009。(EI检索:20093612285213)

[75] 郭立新,王运华,“修正双尺度模型在非高斯海面电磁散射中的应用”,电波科学学报,Vol.22, No.2, pp.212-218, 2007。(EI检索:20072510662964)

[76] 杨超,郭立新,吴振森,“最小二乘支持向量机在蒸发波导预测中的应用”,电波科学学报,Vol.25, No.4, pp.632-637, 2010。(EI检索:20104113292881)

[77] 马保科,郭立新,胡红桥,“电离层闪烁功率谱及不均匀体漂移速度反演”,电波科学学报,Vol.25, No.4, pp.779-784, 2010。(EI检索:20104113292906)

[78] 杨超,郭立新,“高斯介质粗糙面电磁散射的小斜率近似方法”,电波科学学报,Vol.24, No.1, pp.77-82, 2009。(EI检索:20091512029093)

[79] 薛昆,郭立新,“高纬极区电离层离子速度分布函数的多项式解”,电波科学学报,Vol.24, No.5, pp.813-819, 2009。(EI检索:20095112567011)

[80] 李江挺,郭立新,“等离子体鞘套中的电波传播特性研究”,电波科学学报,Vol.26,No.3,pp.494-499, 2011。(EI检索:20113114198838)

[81] 李江挺,郭立新,“电离层中危险碎片与不规则性的电磁散射分析”,电波科学学报,Vol.26,No.6,pp.1158-1164, 2011。(EI检索:20120714773889)

[82] 任新成,郭立新,“指数型分层介质粗糙面光透射问题的微扰法研究”,光学学报,Vol.28,No.6, pp.1208-1214,2008。(EI检索:20083611520894)

[83] 王运华,郭立新,“两个相邻目标对平面波、高斯波束的光散射”,光学学报,Vol.27, No.9, pp. 1711-1718, 2007。(EI检索:20074310888340)

[84] 任新成,郭立新,“具有fBm分形分层介质粗糙面电磁波透射特征研究”,电子与信息学报,Vol.31,No.1, pp.233-237, 2009。(EI检索:20090811914458)

[85] 薛昆,郭立新,吴健,“麦克斯韦分子碰撞下的离子分布函数及其非相干散射谱的计算”,空间科学学报,Vol.29, No.3, pp.287-295, 2009.

[86] 王蕊,郭立新,“分层粗糙面的电磁散射研究”,系统工程与电子技术,Vol.32, No.10, pp.2098-2102, 2010。(EI检索:20104813430756)

[87] 任新成,郭立新,“指数型分层介质粗糙面电磁波透射系数的特征”,强粒子与激光束,Vol.22,No.1,pp.135-139, 2010。

[88] 刘伟,郭立新,“二维纹理特征指数谱粗糙面的极化散射”,系统工程与电子技术,Vol.33,No.2,pp.242-248, 2011。(EI检索:20111513910503)

[89] 杨超,郭立新,“粗糙海面电磁散射的小斜率近似方法”,系统工程与电子技术,Vol.31, No.8, pp.1814-1818, 2009。(EI检索:20093812327105)

[90] 田炜,任新成,郭立新,“分形海面及其与上方目标电磁散射的混合算法”,系统工程与电子技术,Vol.34,No.9,pp.1775-1780, 2012。(EI 检索:20124415631240)

[91] 李江挺,郭立新,“高超声速飞行器等离子体鞘套中的电波传播”,系统工程与电子技术,Vol.33,No.5,pp.969-973, 2011。(EI检索:20112414064868)

[92] 任新成,郭立新,“高斯粗糙面透射波散射系数的基尔霍夫驻留相位法研究”,系统工程与电子技术,Vol.30, No.2, pp.213-217, 2008。(EI检索:20081411183653)

 

专利情况:

Analysis method and device for propagation characteristics of electromagnetic wave(电波传播特性的分析方法与装置),国际(美国)发明专利PCT/CN2011/ 077215,2012

 

国家发明专利授权:

1. 发明人:郭立新等,基于积分边界的介质粗糙面有限元电磁仿真方法,授权号:ZL201310180921.6,2016年4月27日

2. 发明人:郭立新等,基于多区域模型矩量法的介质粗糙面电磁散射仿真方法,授权号:ZL201310326765.X,2016年6月29日

3. 发明人:郭立新等,基于互易性原理的粗糙面与目标复合电磁散射仿真方法,授权号:ZL201310512166.7,2016年6月29日

4. 发明人:邓敬亚,郭立新等,一种宽带天线,授权号:ZL201110170712.4,2013年11月6日

5. 发明人:王兰美,郭立新等,锥面共形阵列多参数联合估计方法,授权号:ZL201310191348.9,2015年6月17日 

国家发明专利申请:

1. 郭立新等,一种粗糙面微波段双向反射分布函数的建模方法,申请号:2014100016087.1,申请日:2014年1月14日

2. 郭立新等,一种基于单视图几何原理的室内环境重构方法,申请号:2014100015416.0,申请日:2014年1月14日  

3. 郭立新等,基于并行矩量法与物理光学混合的电磁散射仿真方法,申请号:201410115110.2,申请日:2014年3月26日

4. 郭立新等,用多种高频电磁散射对大型舰船目标进行电磁仿真的方法,申请号:201410578738.6,申请日:2014年10月24日 

5. 郭立新等,一种电磁场仿真分析方法,申请号:201510061092.9,申请日:2015年2月6日

6. 郭立新等,一维导体粗糙海面与二维导体目标的电磁散射仿真方法,申请号:201510063205.9,申请日:2015年2月6日

7. 郭立新等,三维环境中的建筑物体选择方法,申请号:201510098811.4,申请日:2015年3月5日

8. 郭立新等,用射线跟踪算法对不同误差地图进行电磁仿真的方法,申请号:201510103143.X,申请日:2015年3月9日

9.郭立新等,分层介质粗糙面电磁散射系数的确定方法,申请号:201510107665.7,申请日:2015年3月11日

10. 郭立新等,基于NURS曲面建模的导体目标电磁散射仿真方法,申请号:201610533237.5,申请日:2016年7月8日

     

 

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