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Radiation pattern analyses of circular aperture antenna to generate radio orbital angular momentum
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作者 LIN Cheng-long LIN Ming-tuan +1 位作者 LIU Pei-guo TANG Xing 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第6期1513-1523,共11页
Circular aperture antenna recently has been regarded as a nature source to generate high power radio orbital angular momentum (OAM) in millimeter (mm) wave; however, the radiation pattern was not investigated. The... Circular aperture antenna recently has been regarded as a nature source to generate high power radio orbital angular momentum (OAM) in millimeter (mm) wave; however, the radiation pattern was not investigated. Theoretical derivation of radiation pattern of circular aperture OAM antenna is conducted to evaluate the performance. Extensive simulations verify the validity of the theoretical result. Furthermore, performance of such antenna excited by orthogonal TE and TM modes is compared, which shows the potential application for TEgl mode to create pure OAM g-1 mode in a practical system, providing guidance for generation of twisted radio waves in mm-wave bands. 展开更多
关键词 orbital angular momentum (OAM) twisted radio wave MILLIMETER-WAVE circular aperture antenna radiation pattern TE mode TM mode
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Near-field properties of diffraction through a circular subwavelength-size aperture
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作者 王正岭 周明 +1 位作者 高传玉 张伟 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第6期188-199,共12页
Analytical nonparaxial vectorial electric field expressions for both Gaussian beams and plane waves diffracted through a circular aperture are derived by using the vector plane angular spectrum method for the first ti... Analytical nonparaxial vectorial electric field expressions for both Gaussian beams and plane waves diffracted through a circular aperture are derived by using the vector plane angular spectrum method for the first time, which is suitable for the subwavelength aperture and the near-field region. The transverse properties of intensity distributions and their evolutions with the propagating distance, and the power transmission functions for diffracted fields containing the whole field, the evanescent field and the propagating field are investigated in detail, which is helpful for understanding the relationship between evanescent and propagating components in the near-field region and can be applied to apertured near-field scanning optical microscopy. 展开更多
关键词 analytical expressions DIFFRACTION circular subwavelength aperture near-field properties
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A simulation method on target strength and circular SAS imaging of Xrudder UUV including multiple acoustic scattering
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作者 Wenhuan Wang Bin Wang +3 位作者 Jun Fan Fulin Zhou Kaiqi Zhao Zhou Jiang 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2023年第5期214-228,共15页
Target strength(TS)and circular synthetic aperture sonar(CSAS)images provide essential information for active acoustic detection and recognition of non-cooperative unmanned undersea vehicles(UUVs),which pose a signifi... Target strength(TS)and circular synthetic aperture sonar(CSAS)images provide essential information for active acoustic detection and recognition of non-cooperative unmanned undersea vehicles(UUVs),which pose a significant threat to underwater preset facilities.To access them,we propose an iterative physical acoustics(IPA)-based method to simulate the multiple acoustic scattered fields on rigid surfaces in high-frequency cases.It uses the Helmholtz integral equation with an appropriate Green's function in terms of the Neumann series,and then incorporates the ideas of triangulation and iteration into a numerical implementation.Then two approximate analytic formulae with precise physical meanings are derived to predict the TS and CSAS images of concave targets,respectively.There are no restrictions on the surface's curvature and the order of multiple scattering.The method is validated against the finite element method(FEM)for acoustic scattering from a sphere segment and against an experiment involving an X-rudder UUV's stern.On this basis,we simulate and analyze the TS and CSAS images of an X-rudder UUV.In addition,the influence of the angle of adjacent rudders on the multiple scattering characteristics is discussed.Results show that this method can potentially predict accurate UUV features,especially the multiple scattered features. 展开更多
关键词 Multiple acoustic scattering Target strength(TS) circular synthetic aperture sonar(CSAS) X-rudder unmanned undersea vehicle (UUV) Iterative physical acoustics(IPA)
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Circular SAR processing using an improved omega-k type algorithm 被引量:7
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作者 Leilei KOU Xiaoqing Wang +2 位作者 Jinsong Chong Maosheng Xiang Minhui Zhu 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2010年第4期572-579,共8页
An improved circular synthetic aperture radar(CSAR) imaging algorithm of omega-k(ω-k) type mainly for reconstructing an image on a cylindrical surface is proposed.In the typical CSAR ω-k algorithm,the rage traje... An improved circular synthetic aperture radar(CSAR) imaging algorithm of omega-k(ω-k) type mainly for reconstructing an image on a cylindrical surface is proposed.In the typical CSAR ω-k algorithm,the rage trajectory is approximated by Taylor series expansion to the quadratic terms,which limits the valid synthetic aperture length and the angular reconstruction range severely.Based on the model of the CSAR echo signal,the proposed algorithm directly transforms the signal to the two-dimensional(2D) wavenumber domain,not using approximation processing to the range trajectory.Based on form of the signal spectrum in the wavenumber domain,the formula for the wavenumber domain interpolation of the w-k algorithm is deduced,and the wavenumber spectrum of the reference point used for bulk compression is obtained from numerical method.The improved CSAR ω-k imaging algorithm increases the valid synthetic aperture length and the angular area greatly and hence improves the angular resolution of the cylindrical imaging.Additionally,the proposed algorithm can be repeated on different cylindrical surfaces to achieve three dimensional(3D) image reconstruction.The 3D spatial resolution of the CSAR system is discussed,and the simulation results validate the correctness of the analysis and the feasibility of the algorithm. 展开更多
关键词 circular synthetic aperture radar omega-k algorithm wavenumber domain three-dimensional spatial resolution.
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Effect of orbital errors on the geosynchronous circular synthetic aperture radar imaging and interferometric processing 被引量:5
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作者 Lei-lei KOU Xiao-qing WANG +2 位作者 Mao-sheng XIANG Jin-song CHONG Min-hui ZHU 《Journal of Zhejiang University-Science C(Computers and Electronics)》 SCIE EI 2011年第5期404-416,共13页
The geosynchronous circular synthetic aperture radar (GEOCSAR) is an innovative SAR system,which can produce high resolution three-dimensional (3D) images and has the potential to provide 3D deformation measurement.Wi... The geosynchronous circular synthetic aperture radar (GEOCSAR) is an innovative SAR system,which can produce high resolution three-dimensional (3D) images and has the potential to provide 3D deformation measurement.With an orbit altitude of approximately 36 000 km,the orbit motion and orbit disturbance effects of GEOCSAR behave differently from those of the conventional spaceborne SAR.In this paper,we analyze the effects of orbit errors on GEOCSAR imaging and interferometric processing.First,we present the GEOCSAR imaging geometry and the orbit errors model based on perturbation analysis.Then,we give the GEOCSAR signal formulation based on imaging geometry,and analyze the effect of the orbit error on the output focused signal.By interferometric processing on the 3D reconstructed images,the relationship between satellite orbit errors and the interferometric phase is deduced.Simulations demonstrate the effects of orbit errors on the GEOCSAR images,interferograms,and the deformations.The conclusions are that the required relative accuracy of orbit estimation should be at centimeter level for GEOCSAR imaging at L-band,and that millimeter-scale accuracy is needed for GEOCSAR interferometric processing. 展开更多
关键词 Geosynchronous circular synthetic aperture radar (GEOCSAR) Orbit error Imaging Interferometric processing
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