Geometrically Curved Magnetic Field Sensors for Interactive Electronics


Geometrically Curved Magnetic Field Sensors for Interactive Electronics

Canon Bermudez, G. S.; Makarov, D.

The concept of curvilinear magnetism can be applied to a wide range of materials and targets the
applications where the interplay of geometry, shape, and magnetic texture arises. A clear advantage of
these deformable magnetic materials is that they can be used for applications that demand flexibility or
stretchability, something that conventionally rigid ferromagnets cannot provide. This advantage can be
readily exploited in the field of flexible electronics, which aims to create electronic circuits and devices
that can be folded or bent upon usage. The firm link between the fundamentals and applications of curved
magnetic thin films is given by the fact that magnetic domain walls can be pinned at bends.
This fundamental discovery has deep consequences for magnetic field sensors based on geometrically
curved magnetic thin films. Indeed, curvature of the structure results in an additional pinning mechanism
for domain walls, which can lead to the enhancement of the coercive field and hence lower the sensitivity
of magnetic field sensors. These considerations came up very recently and its consequences are still to be
explored and confirmed experimentally. Here, we will discuss primary the current advances in the
application of flexible magnetic field sensors based on geometrically curved magnetic thin films and
multilayers. Based on this technology, we present and foresee a wide range of applications in the fields of
eMobility, health, and interactive electronics. The latter is the main focus of this chapter, in particular due
to the added value of flexible magnetoelectronics to the fields of human-machine interfaces and virtual or
augmented reality.

Keywords: flexible magnetic field sensors; flexible electronics; interactive electronics; human-machine interfaces

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Publ.-Id: 34890