Ba‐Hexaferrite Films for Next Generation Microwave Devices

Abstract: Next generation magnetic microwave devices require ferrite films to be thick ͑Ͼ300 m͒, self-biased ͑high remanent magnetization͒, and low loss in the microwave and millimeter wave bands. Here we examine recent advances in the processing of thick Ba-hexaferrite ͑M-type͒ films using pulsed laser deposition ͑PLD͒, liquid-phase epitaxy, and screen printing. These techniques are compared and contrasted as to their suitability for microwave materials processing and industrial production. Recent advances include the … Show more

“…The magnetic hysteresis loop squareness (i.e., Sq ) approached 0.7. High Sq values are required, and highly desirable, for self-biased ferrite device applications [6]. For the highest quality films, we measured this squareness as low as 0.2.…”

Structure and Magnetism of Ba-Hexaferrite Films Grown on Single Crystal 6-H SiC With Graduated Interfacial MgO Buffer Layers

“…The magnetic hysteresis loop squareness (i.e., Sq ) approached 0.7. High Sq values are required, and highly desirable, for self-biased ferrite device applications [6]. For the highest quality films, we measured this squareness as low as 0.2.…”

Structure and Magnetism of Ba-Hexaferrite Films Grown on Single Crystal 6-H SiC With Graduated Interfacial MgO Buffer Layers

“…The negative permeability materials offer a better promise in this regard. In fact, one can use a self-biased hexaferrite in gigahertz spectrum and operates above the material resonance to provide desired negative permeability [5]. Hence, it will be of practical importance if one can design a small antenna utilizing MNG materials.…”

“…It can provide more radiation to the outside region and help to create wideband small antenna [3]; however, the major challenge is to achieve a low-loss weak-frequency-dispersive magnetic material at a desired frequency. In contrast to the electric property, it is very hard to establish magnetic polarization in a natural medium at high-frequency spectrum, although, a lot of research is Manuscript currently in the progress to accomplish this importance [5]. Artificially, the magnetism can be created by embedding resonant loop circuits inside a dielectric material [4].…”

Negative Permeability-Based Electrically Small Antennas

“…M-type barium hexa-ferrite (BaM) with narrow ferromagnetic resonance (FMR) line-width is a potential gyromagnetic material for radar electronics, wireless devices and monolithic microwave integrated circuits due to its large uniaxial magneto-crystalline anisotropy ( $17 kOe) which can partially or totally replace the required external static magnetic field and establish self-biasing [1][2][3]. As well known as one of the conventional low cost permanent magnets, BaM poly-crystals are easy to be fabricated, but their FMR line-widths are too large to satisfy the practical utilization.…”

Effects of magnetic pre-alignment of nano-powders on formation of high textured barium hexa-ferrite quasi-single crystals via a magnetic forming and liquid participation sintering route