Effect of nuclear radiation on microstrip and dielectric antennas in space

Conference on Electrical Insulation and Dielectric Phenomena, Pub Date : 1989-10-29 DOI:10.1109/CEIDP.1989.69545

A. Kumar

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引用次数: 3

Abstract

The effect of nuclear radiation in space on dielectric material used in microstrip and dielectric antennas is described. It has been shown that the primary effect of nuclear radiation on materials based on PTFE (polytetrafluoroethylene) is the reduction of molecular weight by breaking the large polymer molecule into smaller parts. There is an increase in brittleness, and this reaction is maximized in the presence of air. The degree to which PTFE is affected is essentially a function of the amount of energy absorbed regardless of the nature of the radiation. The susceptibility of electronic dielectric materials as a function of the total nuclear radiation dose is shown. Usually, the dose rate of 10 rad/h is quoted for the Van Allen belt. At this rate PTFE could operate for more than five years before a threshold level of damage would be detectable electrically and mechanically. Space-proven dielectric antennas are briefly discussed, with particular emphasis on the GTE GSTAR satellite reflector antenna which is fed by a dielectric loaded horn array. The elongation loss caused by radiation on a number of polyimide materials is shown.<>

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空间核辐射对微带和介电天线的影响

介绍了空间核辐射对微带天线和介电天线所用介质材料的影响。研究表明，核辐射对聚四氟乙烯基材料的主要影响是通过将大的聚合物分子分解成较小的部分而使分子量降低。脆性会增加，而这种反应在有空气的情况下达到最大。聚四氟乙烯受影响的程度基本上是吸收能量量的函数，与辐射的性质无关。给出了电子介质材料的磁化率随总核辐射剂量的函数。范艾伦带的剂量率通常为10拉德/小时。按照这个速度，聚四氟乙烯可以工作五年以上，然后才能在电气和机械上检测到损坏的阈值水平。简要讨论了经空间验证的介质天线，重点介绍了由介质加载喇叭阵列馈电的GTE - GSTAR卫星反射器天线。显示了辐射对许多聚酰亚胺材料造成的伸长率损失。

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Conference on Electrical Insulation and Dielectric Phenomena,

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