Toyohashi Tech researchers (Japan) develop magnonic crystal-based ultra-high sensitive magnetic fields sensors for monitoring heart and brain activity and room temperature

Toyohashi Tech researchers (Japan) develop magnonic crystal-based ultra-high sensitive magnetic fields sensors for monitoring heart and brain activity and room temperature

Article Type: News From: Sensor Review, Volume 32, Issue 1

High sensitivity magnetic sensors are important in medical diagnostics for applications such as monitoring heart and brain activities, where mapping distributions of localized extremely weak magnetic fields arising from these organs could provide early warning of life threatening diseases and malfunction.

Mitsuteru Inoue and colleagues at Toyohashi University of Technology (Toyohashi Tech) have developed high sensitivity magnetic sensors using magnonic crystals – artificial magnetic crystal structures capable of controlling the propagation of magnetostatic waves. Magnonic crystals support the propagation of magnetostatic waves through the crystal spin system or suppress the propagation of waves due to the periodicity of the crystal structure.

In this research the Toyohashi Tech researchers fabricated magnonic crystals by the direct formation of one-dimensional arrays of metal strips on yttrium iron garnet (YIG) – a ferromagnetic material widely used in the magneto-electronics industry – which serves as the propagation medium. The metal stripes induce an attenuation band in the frequency spectra of the magnonic crystal and restrict the propagation of waves of specific frequencies.

Even at room temperature, the output signal of the devices – frequency of the attenuation band – is very sensitive to external magnetic fields applied to the YIG crystal, where one Oersted change in the field causes a 2.6 MHz shift in the attenuation band gap. Importantly, the maximum detection sensitivity of the magnonic crystals is more than ten times greater that of giant magneto-impedance devices.

Next the researchers are planning to demonstrate the measurement of magnetic fields in three dimensions. For more information please vist the web site: www.tut.ac.jp/english/