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GIANT MAGNETOSTRICTIVE FILMS BASED ON TbFeCo COMPOUND. Edition No. 1

VDM Publishing House, September 2009, Pages: 196

This thesis deals with the magnetostriction of sputtered films based on the new composition Tb(Fe0.45Co0.55)1.5. For the single layer film, a magnetostriction as high as 1140 ppm was obtained. In Fe/TbFeCo/Fe sandwich films, further improvement of magnetostrictive characteristics thanks to the interfacial coupling was observed. The best performances were obtained for “sping-magnet” magnetostrictive {TbFeCo/YFeCo}50 multilayers. The microstructure of the individual soft magnetic Fe or FeCo-layer depends on the Y-concentration and/or heat treatments. An excellent magnetostrictive magnetostriction (720 ppm) was obtained in the sample with nanocrystalline soft layers. For this system, models of the magnetization and magnetostriction process including the interfacial domain wall have been proposed. Using these magnetostrictive films, magnetoelectric TbFeCo/PZT composites have been fabricated that exhibit a maximum ME voltage coefficient as large as 9650 (V/m)/(kA/m). Based on this ME composite, a promising magnetic sensor with a very high sensitivity (130 mV/mT) have successfully manufactured, which allows to determine not only the strength of the magnetic field but also its direction.

Do, Thi Huong Giang.
D.T. Huong Giang received her PhD degree in Physics from the Rouen University, France in 2005. Her research interests include magnetostrictive, magnetoresistance and magnetoelectric materials, sensors and devices. In 2006, she joined the College of Technology, Vietnam National University Hanoi, where she is currently an assistant professor.