Title :
New RF Magnetic Stripe Inductors With Flanges Based on Exchange-Coupled Magnetic Films
Author :
Michel, J.P. ; Lamy, Y. ; Royet, A.S. ; Viala, B.
Author_Institution :
CEA-LETI-SPINTEC
Abstract :
This work describes magnetically confined inductors using coplanar waveguide (CPW) lines. The fabrication uses antiferromagnetic exchange coupled iron-cobalt films with high ferromagnetic resonance frequency (5 to 7 GHz). A first type of inductors uses sandwiched lines and exhibits a linear density of inductance of 0.9 nHmiddotmm-1. A second type includes magnetic flanges and indicates 1.15 nHmiddotmm -1. The influence of the flanges contributes to 30% increase of the intrinsic coupling with the line. The measured inductance (L) and quality factor (Q) perfectly agree with theoretical permeability considerations. With meanders, we show L of ~3 nH which competes standard spiral inductors. We also demonstrate that Q only depends on the intrinsic values of the reference line (Q0) and the magnetic material (Qmat). Therefore, Q-optimization is possible at high frequency. We indicate a typical maximum of ~10 at 5 GHz
Keywords :
Q-factor; antiferromagnetic materials; coplanar waveguides; inductors; magnetic devices; magnetic permeability; magnetic thin films; microwave devices; 5 to 7 GHz; Q-optimization; antiferromagnetic exchange coupled films; coplanar waveguide lines; exchange-coupled magnetic films; ferromagnetic resonance frequency; intrinsic coupling; magnetic flanges; magnetic material; quality factor; radiofrequency magnetic stripe inductors; spiral inductors; Antiferromagnetic materials; Coplanar waveguides; Fabrication; Flanges; Inductors; Magnetic confinement; Magnetic films; Magnetic resonance; Radio frequency; Resonant frequency; Antiferromagnetic exchange coupling; RF inductors; coplanar waveguide; ferromagnetic resonance; high magnetization;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879961
