Title :
Magnetoresistive sensors with rapidly solidified Permalloy fibers
Author :
Ciureanu, P. ; Rudkowska, G. ; Rudkowska, G. ; Ström-Olsen, J.O.
Author_Institution :
Centre for the Phys. of Mater., McGill Univ., Montreal, Que., Canada
fDate :
9/1/1993 12:00:00 AM
Abstract :
The microstructure and properties of Permalloy fibers were studied. Both transverse and longitudinal extraordinary magnetoresistive effects have a positive initial slope due to stress-related rotation of moments in the closure domains and to the coherent rotation of moments in the columns. Fiber response was also investigated as a function of the field direction and angle of incidence, fiber twisting and for strong transverse fields. The results are discussed in terms of the existing models, and a new model is proposed to explain the transerse effect. The structures and operating principles of single- and dual-fiber biased sensors based on the longitudinal effects are presented. Distortions due to overbiasing are accounted for by the pinning and expansion of large-area closure domains with moments tilted by the casting stress. The sensitivity-linearity range product is the same for several bias levels, and a family of sensors was obtained using the same fiber
Keywords :
Permalloy; casting; electric sensing devices; ferromagnetic properties of substances; fibres; magnetoresistive devices; rapid solidification; NiFe; Permalloy fibers; casting stress; coherent moment rotation; dual-fiber biased sensors; fiber twisting; large-area closure domains; longitudinal extraordinary magnetoresistive effects; magnetoresistive sensors; microstructure; overbiasing distortions; rapid solidification; sensitivity-linearity range product; stress related moment rotation; transverse magnetoresistive effect; Casting; Magnetic field measurement; Magnetic materials; Magnetic sensors; Magnetoresistance; Optical fiber sensors; Tensile stress; Thin film sensors; Transistors; Wheels;
Journal_Title :
Magnetics, IEEE Transactions on
