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Temperature compensated magnetic field sensor based on love waves

Harshad Mishra, Jérémy Streque, M. Hehn, Prince Mengue, Hamid M’Jahed, D. Lacour, K. Dumesnil, S. Petit, Sergei Zhgoon, Vincent Polewczyk, A. Mazzamurro, Abdelkrim Talbi, Sami Hage‐Ali, Omar Elmazria

2020Smart Materials and Structures28 citationsDOIOpen Access PDF

Abstract

Abstract A temperature compensated magnetic field sensor based on the combination of CoFeB ferromagnetic thin films and Quartz/ZnO Love waveguide platform is developed and optimized. The Love wave is a shear horizontal guided wave and therefore provides an optimal interaction with magnetization in the magneto-elastic thin film resulting in higher acoustic wave magneto-elastic coupling compared to the conventional Rayleigh wave based devices. ST-cut Quartz was chosen as substrate, ZnO as insulating layer for Love wave generation and temperature coefficient of frequency (TCF) compensation and CoFeB as the magnetostrictive layer sensitive to magnetic field. Experimental results show a magneto-acoustic sensitivity of 15.53 MHz T −1 with almost zero TCF.

Topics & Concepts

Materials scienceMagnetostrictionRayleigh waveMagnetoCompensation (psychology)Magnetic fieldSubstrate (aquarium)Surface acoustic waveCondensed matter physicsFerromagnetismRayleigh scatteringLove waveThin filmCoupling (piping)AcousticsOptoelectronicsOpticsSurface waveComposite materialWave propagationLongitudinal waveMagnetElectrical engineeringMechanical wavePhysicsEngineeringNanotechnologyQuantum mechanicsGeologyPsychoanalysisOceanographyPsychologyAcoustic Wave Resonator TechnologiesMagneto-Optical Properties and ApplicationsMagnetic Properties and Applications
Temperature compensated magnetic field sensor based on love waves | Litcius