共查询到20条相似文献,搜索用时 15 毫秒
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Ying Tan Lanfen Qi Ye Luo Zhimin Zhou 《International Journal of Infrared and Millimeter Waves》2000,21(10):1589-1601
The problem of obtaining the radar cross section (RCS) of a scale model too large to measure in the range of millimeter-wave by measurement is investigated. This topic, to the best of our knowledge, has been little investigated due to its complexity. A scheme named RCS part measurement and synthesis to this problem is developed in this paper. This method combines measurement with theoretical calculation. The first step in using the method is that a scale model is partitioned into several parts measurable. Then the contributions of the sections and shadow region shadowed by all other parts are removed from the measured RCS data of every part. Finally, the scattered fields of all the parts are synthesized to obtain the total RCS of the scale model by means of the technique of relative phase synthesis. A result is presented to illustrate the utility of this scheme. 相似文献
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Li Ying-le Huang Ji-ying Wang Ming-jun Gong Shu-hong 《International Journal of Infrared and Millimeter Waves》2008,29(10):982-989
This paper studies the electromagnetic reciprocity among spherical targets. The second scattering field for a target is derived
in detail. The complex scattered field and the bistatic RCS are presented respectively. The simulations for the obtaining
result in Ku wave band show that the size of the principal target affects greatly both the forward scatter and the backward
scatter. The influence of the targets around shows definite periodicity. The second scattered field decrease with the increase
of distance between two targets. The more near the forward area the rounding target is, the bigger its affect is. The magnitude
of the second scattered field is about 10–3 comparing with that of the first scattered field. The size of surrounding particles can be considered as a stated scale when
researching the electromagnetic reciprocity. This kind of interaction for three dimensions can be investigated easy by using
the obtained result and coordinate transformation. 相似文献
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应用AWE技术和等效偶极子法快速计算目标宽带RCS 总被引:1,自引:0,他引:1
将渐近波形估计(AWE)技术结合等效偶极子(EDM)法应用于任意三维导体目标宽带雷达散射截面(RCS)的快速计算.首先利用等效偶极子法实现阻抗矩阵的快速填充及其多阶导数矩阵的快速计算,并利用内外迭代近场预处理技术加速矩阵方程的求解,进而应用渐近波形估计技术实现宽带雷达散射截面(RCS)的快速计算.数值计算表明:本文方法在保证计算精度的前提下,提高了计算效率. 相似文献
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角反射体雷达散射截面(RCS)的测量是雷达目标识别、成像等研究领域的一个关键环节;在对目标RCS测量原理分析的基础上,介绍了一个在微波暗室中基于紧缩场和矢量网络分析仪测量目标RCS的测量系统;利用该系统对角反射体垂直姿态和45°姿态的RCS进行了360度转角扫频的测量,结果与FEKO软件仿真计算的结果对比表明,两种方法得到的数据走势基本一致。 相似文献
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Two structure functions W1(x,Q2) and W2(x,Q2) are determined by using the cross sections measured in the deep inelastic electron-proton scattering experiments at Stanford Linac in the energy range of 5 to 20 GeV. In this paper an alternative mathematical approach have been used in such determination, resulting in a larger number of points in the graphs of the structure functions. 相似文献
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用时域有限差分法仿真了某飞行器缩比模型及该模型涂敷雷达吸波材料的散射特性,得到了鼻锥方向、侧向和后向ns级脉冲激励下模型的时域响应和频域雷达散射截面;并在外场用ns级脉冲源进行了该金属模型的探测实验。仿真与外场实验结果均得到了模型的鼻锥方向回波幅度最小,侧向最大;鼻锥方向回波脉宽最宽,侧向最窄的结论。研究结果表明:外形隐身和材料隐身对ns或亚ns级窄脉冲的隐身效果不明显,ns或亚ns级窄脉冲能发现和识别隐身目标。 相似文献
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为了缩减天线带内雷达散射截面(radar cross section, RCS), 在双频带完美吸波材料的基础上, 通过缩小两吸波率峰值之间的距离, 设计出了一种频带较宽的超薄完美吸波体.该吸波体由两层金属及其中间的有耗介质组成, 底面金属不刻蚀, 顶面由方形贴片和绕其四周的开口方环组成, 该结构具有低频点LC谐振和高频点偶极子谐振的特征.仿真和实验结果表明: 该吸波体具有极化不敏感和宽入射角的特征, 其在厚度小于0.01λ的条件下, 具有8.2%的半波功率相对带宽, 最大吸波率的峰值为91.6%和96.5%. 将吸波体用于圆极化的倾斜波束 (tilted beam, TB)天线, 仿真和测试结果表明: 该天线在保持增益不变的条件下, 不仅轴比得到改善, 有效带宽得到拓展, 且在5.5–6.5 GHz范围内TB天线的RCS缩减至少在3 dBsm以上, 在谐振频点处最大缩减幅度分别为11 dBsm和8 dBsm; 在两谐振点处鼻锥方向-36°–+36°范围内, TB天线的RCS缩减均有明显效果.
关键词:
超薄完美吸波体
TB天线
雷达散射截面
圆极化 相似文献
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Tan Ying 《International Journal of Infrared and Millimeter Waves》2001,22(12):1795-1804
The paper presents a general method for computing the physical optics (PO) integral on the most of curved parametric surfaces. Today, most of radar cross section (RCS) codes use the parametric geometry code for modeling complex object geometry. The PO integral formulation is presented that fully utilize the geometry information available in parametric geometry codes. The formulation presented can be used with any of these geometry codes independent of the difference between versions. The PO integral is evaluated over the parametric space of the parametric surfaces using splitting extrapolation method. Therefore, the method is very general, allowing its use for the PO integral on the most of parametric surfaces. Moreover, it is efficient and accurate. The method is applied to calculate the RCS values of several objects modeled with non-uniformed rational B-spline (NURBS) surfaces at a millimeter-wave frequency, the results agree with geometric optics (GO) predictions. 相似文献
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研究复杂目标的几何建模、光学面元消隐和目标表面的光学散射特性.针对任意构型的目标,提出采用均匀光照明仿真图像进行光学散射截面(OCS)数值计算方法.通过自适应Z缓存方法,实现目标光学消隐面的计算,将这部分消隐面面积从目标OCS的数值积分中去除.研究近似镜面材料的空间模板褶皱表面的光学散射数值模拟方法,以及基于激光主动探测系统实验测量数据的目标OCS实验分析方法.根据某缩比例空间目标相对探测系统不同方位、俯仰角情况的OCS实验结果,校正OCS数值仿真参数.仿真结果与实验结果的图像比较和OCS曲线趋势大略一致,考虑到表面褶皱的随机性、姿态的测量误差和仿真模型有限的校准能力等因素,本文提出的数值仿真方法能够在一定程度上描述目标的OCS值. 相似文献
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非相干光宽带腔增强吸收光谱作为高灵敏检测技术,已成功应用于多种大气痕量气体浓度的测量。根据腔增强吸收光谱技术测量原理可知,若已知测量气体准确浓度,镜片反射率随波长的变化曲线、有效吸收长度、光学腔内有无测量气体吸收前后的光辐射变化,可测量出待测气体的吸收截面。SO_2由于a~3 B_1—X~1 A_1自旋禁阻跃迁,在345~420nm波段吸收截面较低(~10~(-22) cm2/molecule),其测量有一定难度,而准确的弱吸收截面对于卫星反演大气痕量气体浓度以及大气研究等方面均有重要意义。采用365nm LED光源的宽带腔增强吸收光谱实验装置测量357~385nm波段范围SO_2的弱吸收,获得该波段SO_2弱吸收截面,并与已公开发表的SO_2吸收截面进行对比,相关系数r为0.997 3,验证了非相干光宽带腔增强吸收光谱技术准确测量气体弱吸收截面的适用性。 相似文献
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根据粗糙面散射理论,用相位微扰法推导出了从随机粗糙介质表面散射的激光雷达散射截面的理论计算公式,计算了几种粗糙表面样品在1.06μm下的单位面积激光雷达散射截面,数值结果与实验数据基本吻合。 相似文献
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在雷达散射截面(RCS)测试中,低散射载体的设计结果取决于被测目标的RCS量级。为进行细节性隐身设计,获得台阶与缝隙排除载体干扰后的RCS水平,提出一种在台阶与缝隙RCS测试中的低散射载体设计方法。采用多层快速多极子算法,对低散射载体相邻曲面连接方式、台阶与缝隙在载体上的位置、前缘尖削度、倒圆半径对散射特性的影响进行了仿真分析。仿真结果表明,控制载体表面曲率的变化、加大前缘尖削度、减小拼接曲面倒圆半径能有效降低载体前向散射水平,由于载体曲面一侧的散射水平低于平面一侧散射水平,台阶与缝隙特征应位于曲面上。对RCS测试中低散射载体设计具有指导意义。 相似文献
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电磁超表面由于其独特的电磁特性为调控电磁波提供了有力工具,合适地设计成编码、随机、相位不连续、完美吸收器等超表面,就能够控制电磁波的散射以及反射特性,实现雷达散射截面的缩减。本文综述了不同的电磁超表面利用漫反射或者吸收等特性实现在微波和太赫兹波段雷达散射截面缩减中的应用。分析表明,编码超表面由不同的数字单元组成,其反射相位差在很宽的频段范围内满足恒定的关系,设计特殊的单元序列使入射的电磁波产生非定向散射,更高bit编码超表面更容易灵活调控电磁波;随机超表面通过调节阵元的尺寸实现宽带移相从而将金属目标特征性强的反射峰打散成一个无规律、杂乱的波,产生漫反射;不连续超表面由于相位不连续可使电磁波发生漫反射或者异常反射;吸收器通过合理设计结构尺寸实现吸收电磁波能量来减小反射。因此电磁超表面在雷达隐身、宽带通讯、成像等方面具有重要的应用前景。最后对电磁超表面在雷达散射截面缩减中应用的发展趋势进行了初步探讨,未来将向着宽带、柔性、大角度等方面发展。 相似文献
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