We investigate on synthesis and high-frequency magnetic-properties evaluation for soft magnetic amorphous particles. The advantages of the particles are their high saturation magnetization and submicron size.
We investigate on synthesis and high-frequency magnetic-properties evaluation for soft magnetic amorphous particles. The advantages of the particles are their high saturation magnetization and submicron size.
In electrical and electronic devices, control of voltage and current is required. In particular, inductors using magnetic materials (magnetic inductors) are essential components to control those parameters. In our laboratory, the development of new magnetic materials and their application methods are investigated in order to realize compact, high energy-density, low-loss, high-frequency magnetic inductors for the next-generation devices with small size and low power consumption.
High-frequency signals produced by electrical and electronic devices can interfere with other devices by radiating unwanted and unexpected electromagnetic waves (noise). We investigate that the sources and propagation paths of electromagnetic waves and the receiving side of the interference and propose novel methods to control electromagnetic fields using new functional materials.
