单轴加载过程中闪长岩的微波辐射双极化响应

Guangrui Dong;Wenfei Mao;Licheng Sun;Tao Zheng;Haofeng Dou;Lixin Wu
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引用次数: 0

摘要

对受压岩石微波辐射变化的实验探测是通过卫星无源微波遥感识别地震异常的关键。然而,由于地壳岩性差异大、微波辐射信号弱、环境噪声强等原因,这种变化尚未得到全面的表征。考虑到任何材料的不同极化微波辐射都具有内在的显著多样性,本研究调查了岩石材料加载过程中不同极化微波辐射的响应。因此,在室外构建了一个包括多个传感器的同步检测系统,以揭示应力引起的闪长岩试样 C 波段微波亮度温度(MBT)的变化。实验结果表明,水平和垂直方向的微波亮度温度随压力的变化而有规律地变化,但微波亮度温度的变化趋势在很大程度上受极化模式的影响。具体而言,垂直极化 MBT 的变化与周期性变化的压力之间呈正相关,其间 MBT 以 0.033 K/MPa 左右的速率变化。相反,水平极化 MBT 的变化与变化的压力呈负相关,MBT 的变化率约为 -0.031 K/MPa。根据辐射传递理论,研究发现在单轴压缩条件下,介电各向异性会导致 h 极化和 v 极化 MBT 发生相反的变化。这项研究说明了应力诱发的闪长岩的显著和可识别的 MBT 变化,有助于在大地震发生前识别可探测到的微波辐射异常。
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Dual-Polarization Responses of Microwave Radiation of Diorite in Process of Uniaxial Loading
The experimental detection of the changes in microwave radiation of rocks under pressure is key to identifying earthquake anomalies through satellite passive microwave remote sensing. However, such changes have not been comprehensively characterized due to the considerable differences in crustal lithology, weak microwave radiation signals, and strong environmental noise. Considering the intrinsic and significant diversity of different polarized microwave radiations of any materials, this study investigated the responses of different polarized microwave radiations during loading the rock materials. Thus, a synchronized detection system including multiple sensors was constructed at outdoor to reveal the stress-induced changes in C-band microwave brightness temperature (MBT) of diorite specimen. Experimental results show that both the horizontal and vertical MBT varied regularly with the changes of pressure; however, the trends of changes of MBT were greatly influenced by the polarization modes. Specifically, a positive correlation was illustrated between the change in vertical polarization MBT and cyclically varied pressure, during which the MBT changed with a rate of 0.033 K/MPa about. In contrast, the changes in horizontal polarization MBT exhibited a negative correlation with the varied pressure, and the MBT change rate was approximately −0.031 K/MPa. Based on the radiative transfer theory, it was found that the opposite MBT changes with respect to h- and v-polarizations are supposed to be caused by the dielectric anisotropy under uniaxial compression conditions. This study illustrates the significant and discernible MBT changes of diorite induced by the stress, which is helpful to identify the detectable microwave radiation anomalies before large earthquake occurrence.
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