Three-dimensional omni-directional power pattern using rotating electric current sphere via exact maxwell solution

IF 1.4 4区 管理学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
David Alan Garren
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引用次数: 0

Abstract

The author reveals that the power pattern for a particular selected rotating spherical electric current density profile exhibits the following two properties simultaneously: (a) fully omnidirectional in three dimensions (3-D) and (b) invariant with regards to radio frequency (RF). Specifically, most known antenna designs exhibit either nodal lines or planes for at least some RF frequencies. In contrast, the primary innovation of the subject rotating electric current sphere is that it generates a power pattern that is characterised by no nodal lines nor nodal planes for any RF frequency. In the present analysis, the electro-magnetic (EM) fields are calculated as an exact solution of Maxwell's equations for the subject electric current density that rotates azimuthally on a spherical surface. As expected, the spatial structure of the resulting EM fields also rotates azimuthally. More surprisingly, this rotating electric current density generates pure magnetic dipole radiation exactly, with the absence of any higher order multipole moments. This proposed antenna concept could offer utility in various applications, including communications beaconing and radar surveillance.

通过麦克斯韦精确解法利用旋转电流球实现三维全向功率模式
作者发现,特定选定旋转球形电流密度剖面的功率模式同时具有以下两个特性:(a) 在三维(3-D)范围内完全全向;(b) 射频(RF)不变。具体来说,大多数已知的天线设计至少在某些射频频率上表现出节点线或平面。相比之下,旋转电流球的主要创新之处在于,它产生的功率模式在任何射频频率下都没有节点线或节点平面。在本分析中,电磁场是以麦克斯韦方程的精确解来计算在球面上方位旋转的主题电流密度的。不出所料,由此产生的电磁场的空间结构也会发生方位旋转。更令人惊讶的是,这种旋转电流密度能精确地产生纯磁偶极子辐射,不存在任何高阶多极矩。这种拟议的天线概念可用于各种应用,包括通信信标和雷达监测。
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来源期刊
Iet Radar Sonar and Navigation
Iet Radar Sonar and Navigation 工程技术-电信学
CiteScore
4.10
自引率
11.80%
发文量
137
审稿时长
3.4 months
期刊介绍: IET Radar, Sonar & Navigation covers the theory and practice of systems and signals for radar, sonar, radiolocation, navigation, and surveillance purposes, in aerospace and terrestrial applications. Examples include advances in waveform design, clutter and detection, electronic warfare, adaptive array and superresolution methods, tracking algorithms, synthetic aperture, and target recognition techniques.
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