Simple electrodepositing of CoFe/Cu multilayers: Effect of ferromagnetic layer thicknesses
No Thumbnail Available
Date
2016-06-15
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
The CoFe/Cu magnetic multilayers were produced by changing CoFe ferromagnetic layers from 3 nm to 10 nm using electrodeposition. By now, the thinnest Cu (0.5 nm) layer thicknesses were used to see whether the GMR effect in the multilayers can be obtained or not since the pinning of non-magnetic layer between the ferromagnetic layers is required. For the proper depositions, the cyclic voltammograms was used, and the current-time transients were obtained. The Cu and CoFe layers were deposited at a cathode potential of -0.3 and -1.5 V with respect to saturated calomel electrode, respectively. From the XRD patterns, the multilayers were shown to be fcc crystal structures. For the magnetization measurements, saturation magnetization increases from 160 to 600 kA/m from 3 to 8 nm ferromagnetic layer thicknesses. And, the coercivity values increase until the 8 nm of the CoFe layer thickness. It is seen that the thin Cu layer(fixed at 0.5 nm) and pinholes support the random magnetization orientation and thus all multilayers exhibited the giant magnetoresistance(GMR) effect, and the highest GMR value was observed about 5.5%. And, the variation of GMR field sensitivity was calculated. The results show that the GMR and GMR sensitivity are compatible among the multilayers. The CoFe/Cu magnetic multilayers having GMR properties are used in GMR sensors and hard disk drive of the nano-technological devices.
Description
Keywords
Materials science, Physics, CoFe/Cu multilayer, Electrodeposition, GMR, Multilayer, XRD, Co-fe/cu multilayers, Giant magnetoresistance, Co/cu multilayers, Extraordinary magnetoresistance, Saturation fields, Superlattices, Alloys, Electrodes, Ferromagnetic materials, Ferromagnetism, Galvanomagnetic effects, Giant magnetoresistance, Hard disk storage, Magnetic materials, Magnetism, Magnetization, Multilayers, Saturation magnetization, Sensitivity analysis, Cathode potential, Magnetic multilayers, Current-time transient, Cyclic voltammograms, Ferromagnetic layers, Field sensitivity, Giant magnetoresistance (GMR) effects, Saturated calomel electrode
Citation
Tekgül, A. vd. (2017). ''Simple electrodepositing of CoFe/Cu multilayers: Effect of ferromagnetic layer thicknesses''. Journal of Magnetism and Magnetic Materials, 421, 472-476.