Abstract
Magnetoelectric thin-film sensors based on the delta-E effect have widely been reported for the detection of low frequency and small amplitude magnetic fields. Such sensors are usually fabricated with microelectromechanical system technology, where aluminum nitride (AlN) is the established piezoelectric material. Here, we present aluminum scandium nitride (AlScN) for delta-E effect sensors instead and compare it with AlN using two sensors of identical design. The sensors are experimentally and theoretically analyzed regarding sensitivity, noise, limit of detection (LOD), and resonator linearity. We identify the influence of the dominating piezoelectric coefficients dij and other material parameters. Simulations and measurements demonstrate that, in contrast to the conventional direct operation of magnetoelectric sensors, a sensitivity increase ∝dij2 and a LOD improvement ∝dij−1 can be achieved if thermal–mechanical noise is dominant. In the present case, an 8× improved sensitivity and LOD are measured with AlScN at small excitation amplitudes. This factor decreases with increasing amplitude and resonator nonlinearities. The overall minimum LOD does not change due to an earlier onset of magnetic noise in the AlScN sensor. All in all, this study reveals the influence of the piezoelectric material on the signal and noise of delta-E effect sensors and the potential of AlScN to significantly improve sensitivity.
Highlights
Detecting small amplitude and low-frequency magnetic fields is of high interest in the field of biomagnetics and opens promising prospects for potential medical diagnostics and therapies.[1,2,3] Thinfilm magnetoelectric composite sensors have been investigated for such purposes.[4,5,6,7] They can be downscaled with standard microelectromechanical system (MEMS) technology and are compatible with complementary metal–oxide–semiconductor (CMOS) technology
Such sensors are usually fabricated with microelectromechanical system technology, where aluminum nitride (AlN) is the established piezoelectric material
This study reveals the influence of the piezoelectric material on the signal and noise of delta-E effect sensors and the potential of aluminum scandium nitride (AlScN) to significantly improve sensitivity
Summary
Detecting small amplitude and low-frequency magnetic fields is of high interest in the field of biomagnetics and opens promising prospects for potential medical diagnostics and therapies.[1,2,3] Thinfilm magnetoelectric composite sensors have been investigated for such purposes.[4,5,6,7] They can be downscaled with standard microelectromechanical system (MEMS) technology and are compatible with complementary metal–oxide–semiconductor (CMOS) technology. Magnetoelectric thin-film sensors based on the delta-E effect have widely been reported for the detection of low frequency and small amplitude magnetic fields. An 8× improved sensitivity and LOD are measured with AlScN at small excitation amplitudes.
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