Sujith Raman scite author profile

The performance of microwave devices mainly depends on the properties of materials used in the fabrication. Knowledge of material properties at microwave frequencies is a prerequisite to select suitable materials for various microwave applications and vice versa. In this review, seven categories of materials and their applications in a microwave regime are elaborately discussed. The categories include magnetic materials, carbon-based materials, flexible or stretchable materials, biomaterials, phantoms, tunable materials and metamaterials. A brief overview of other important microwave materials such as low-loss ceramic dielectric materials, low-loss polymer ceramic composites, glass ceramics and multilayer ceramics is also given. The objective of this review is to expose the world of materials for wide microwave applications and thereby properly assisting the material selection for specific applications. Moreover, this review has dual significance. It helps material scientists to develop new materials and modify the properties of the available materials with respect to the application requirements. It also assists microwave engineers to select and use appropriate materials for different microwave applications.

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Electromagnetic Interference (EMI): Measurement and Reduction Techniques

Mathur

Raman

2020

Journal of Elec Materi

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Electromagnetic interference (EMI) is one of the biggest challenges faced during the production of any electronic device. The effect on the performance of the instrument due to these inevitable interferences must be carefully measured to understand and quantify the electromagnetic compatibility (EMC) of the instrument under test. If the EMI profile of the system does not meet the accepted standards, then it becomes necessary to take measures to reduce the influence of these unwanted interferences so that the equipment can be used in the real world. Unfortunately, research and studies on EMI and EMC have not received their due attention from the scientific community. Moreover, the literature available for this area of research is scattered where different sources provide information on one or more (but not all) aspects of EMI/EMC while ignoring the others. With the objective of encompassing this extremely significant area of research in its entirety, this review presents both EMI measurement techniques and EMI reduction techniques in detail. EMI measurement techniques are presented under two sections that deal with emission testing and immunity testing, respectively. Herein, EMI reduction techniques are presented under four sections, where electromagnetic shielding has been given special attention under which various methods used by the scientific community to measure the shielding effectiveness of a material or microwave absorber and its application in EMI reduction are illustrated. This is followed by EMI filters, circuit topology modification and spread spectrum. This review can help students and young scientists in this area to get an idea of the ways to conduct EMI tests as well as the ways that can be employed to reduce the EMI of the system, depending on the application.

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Effect of coupling agent on the thermal and dielectric properties of PTFE/Sm2Si2O7 composites

Thomas

Raman

Mohanan

et al. 2010

Composites Part A: Applied Science and Manufacturing

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Microstrip-Fed Pattern- and Polarization- Reconfigurable Compact Truncated Monopole Antenna

Raman

Mohanan

Timmons

et al. 2013

Antennas Wirel. Propag. Lett.

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Photoacoustic study of the effect of degassing temperature on thermal diffusivity of hydroxyl loaded alumina

Raman

Nampoori

Vallabhan

et al. 1995

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Articles you may be interested inThe effect of thermal treatment induced inter-diffusion at the interfaces on the charge trapping performance of HfO2/Al2O3 nanolaminate-based memory devices Network structure and thermal stability study of high temperature seal glass J. Appl. Phys.The thermal diffusivity of ␥-alumina is determined by the photoacoustic method. The method is calibrated by determining the thermal diffusivity of copper and aluminum. The effect of the chemisorbed hydroxyl groups on thermal diffusivity is studied by degassing the sample at different temperatures.

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Sujith Raman

Applications of Microwave Materials: A Review

Electromagnetic Interference (EMI): Measurement and Reduction Techniques

Effect of coupling agent on the thermal and dielectric properties of PTFE/Sm2Si2O7 composites

Microstrip-Fed Pattern- and Polarization- Reconfigurable Compact Truncated Monopole Antenna

Photoacoustic study of the effect of degassing temperature on thermal diffusivity of hydroxyl loaded alumina

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