Title :
High-frequency magnetoelastic multilayer thin films and applications
Author :
Ludwig, Alfred ; Frommberger, Michael ; Tewes, Michael ; Quandt, Eckhard
Author_Institution :
Caesar, Bonn, Germany
Abstract :
This paper gives an overview of recent advances in applying magnetoelastic thin films in inductive high-frequency devices. Single and multilayer films were fabricated and optimized with respect to application in stress-sensitive inductors, which are operated at high frequencies. These films require high magnetic permeability, high ferromagnetic resonance frequency, low losses, and a high inverse magnetostrictive effect. A thin-film LC circuit with incorporated magnetic thin films, sensitive to applied external magnetic field and/or applied stress, is presented. It operates at a frequency of about 0.5 GHz and has a quality factor of 8, allowing wireless interrogation, e.g., by inductive coupling. Applied strain in a range <0.1% leads to a change of resonance frequency of up to 20%.
Keywords :
ferromagnetic resonance; inductors; magnetic circuits; magnetic multilayers; magnetic sensors; magnetic thin film devices; magnetic thin films; magnetostrictive devices; stress measurement; 0.5 GHz; high ferromagnetic resonance frequency; high inverse magnetostrictive effect; high magnetic permeability; high-frequency magnetoelastic multilayer thin films; inductive high-frequency devices; low losses; magnetoelastic thin films; stress-sensitive inductors; thin-film LC circuit; Magnetic devices; Magnetic field induced strain; Magnetic films; Magnetic multilayers; Magnetic resonance; Magnetostriction; Magnetostrictive devices; Resonant frequency; Thin film circuits; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.815894
