Since the revival of multiferroic laminates with giant magnetoelectric (ME) coefficients, a variety of multifunctional ME devices, such as sensor, inductor, filter, antenna etc. have been …
The theoretical limit for small antenna performance that was derived decades ago by Wheeler and Chu governs design tradeoffs for size, bandwidth, and efficiency. Theoretical …
There has been significant progress on the fundamental science and technological applications of complex oxides and multiferroics. Among complex oxide thin films, barium …
The increasing demand for realizing ultra-fast, compact, and ultra-low power electronics/spintronics has propelled the creation of novel multiferroic heterostructures …
The growing demand for low-profile, efficient compact antennas with reconfigurable characteristics has prompted antenna engineers to use novel materials in place of …
In this paper, a compact and low loss tunable phase shifter with low magnetic fields using partially magnetized ferrites was designed, fabricated and characterized. The new magnetic …
A Hssaini, M Belaiche, M Elansary, CA Ferdi… - … of Superconductivity and …, 2022 - Springer
The fabrication of magnetic coated nanoparticles in a single step is a challenge for nanotechnology applications. In this paper, Ni0. 5Co0. 5Fe1. 6Gd0. 2Mo0. 1Sm0. 1O4 …
H Tang, JX Chen - IEEE Access, 2017 - ieeexplore.ieee.org
A microfluidically frequency-reconfigurable microstrip patch antenna and an array are proposed in this paper. The reconfiguration performance is realized to be frequency …
Q Gao, ME Fordham, W Gu, H Cui… - IEEE Microwave …, 2022 - ieeexplore.ieee.org
Magnetic materials offer a unique combination of properties for RF applications, such as nonreciprocity, high permeability, broad tunability, strong frequency dispersion, and …