This paper presents a scheme for the study of dielectrics. For this purpose, fringing field is employed, which is usually considered an undesired effect. Two non-ideal capacitors are placed one beneath the other, which have a region of interlinking fringing fields. If the fringing fields are canceled out, it is called diminutive physically parallel orientation. This capacitor arrangement is placed in a Wheatstone bridge setup, so whenever a dielectric sample is placed within the main capacitor, then it creates distortion in the interlinking fringing fields. This is canceled out when the circuit is balanced, which happens at an optimum plate separation. Thus, the proposed scheme can be used to study fringing field intensity, sense the movement of a dielectric liquid, measure dielectric properties such as permittivity, study materials and biological substances, etc. This work is expected to find application in industrial sensing. Researchers will also find some interesting ideas to ponder upon.

中文翻译：

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通过分析边缘场畸变来研究电介质的方案的理论基础

本文提出了一种研究电介质的方案。为此目的，使用边缘场，这通常被认为是不希望的效果。两个非理想电容器一个放在另一个下面，它们有一个相互链接的边缘场区域。如果消除了边缘场，则称为小型物理平行取向。这种电容器布置被放置在惠斯通电桥设置中，因此只要将介电样本放置在主电容器内，就会在互连的边缘场中产生失真。当电路平衡时，这会被抵消，这发生在最佳板分离处。因此，所提出的方案可用于研究边缘场强度，感测介电液体的运动，测量介电特性，例如介电常数，研究材料和生物物质等。这项工作有望在工业传感中得到应用。研究人员还会发现一些有趣的想法来思考。