D. Parajuli, Venkata Kumar Vagolu, K. Chandramoli, N. Murali, Bhumi Raj Sharma, Nunu Lal Shah, K. Samatha
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引用次数: 0
摘要
采用软化学方法制备钴取代镍锌铁氧体(ni0.95 × zn0.05 × cox Fe2O4, x = 0.01、0.02和0.03)。我们最近研究了它们的结构、形态、磁性、初始磁导率和介电常数。发现它们具有立方体铁磁尖晶石结构,其形态适合于高密度记录介质。阻抗在表征样品的电和磁特性方面起着重要作用,这取决于它们的磁导率和介电常数。因此,本研究将验证之前得到的值。其次,储存在电容器中的能量是成正比的,它的大小与介电常数成反比。同样,材料对通过它的磁场所提供的电阻与磁导率有关。本研究将重点研究阻抗随Co2+浓度的变化。用等效电路模型推导了结果。阻抗分析在生物领域也很重要,被称为生物阻抗分析(BIA),用于确定营养状况等。
Complex impedance analysis of soft chemical synthesized NZCF systems
The soft chemical method was adopted to prepare of cobalt-substituted nickel-zinc ferrites (Ni0.95-x Zn0.05COx Fe2O4 for x = 0.01, 0.02 and 0.03). We have recently studied their structural, morphological, and magnetic properties, initial permeability, and dielectric constant. They were found to be with cubic ferromagnetic spinel structure, the morphology of which is suitable for high-density recording media. The impedance has a major role in characterizing the electrical and magnetic properties of the sample, which are dependent on their permeability and dielectric constant. So, this study will verify the values obtained before. Next, the energy stored in a capacitor is directly proportional, and its size is inversely proportional to the dielectric constant. Similarly, the resistance offered by a material to the magnetic field to pass through it is related to permeability. This study will focus on the variation of impedance with Co2+ concentration. The results were derived with the equivalent circuit model. The impedance analysis is also important in the biological field having a name of Bio-Impedance Analysis (BIA), for determining nutritional status, and many more.
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