Influence of Ni thin layer on a static and dynamic magnetostrictive behavior in TbFe multi-layered film

• Micro-magnetic model and magnetic domain motion are investigated.
• Time consumptions are calculated to get a uniformly magnetized state.
• Magnetostrictions of TbFe/Ni/TbFe and tri-layered TbFe films are compared.
• Reduction of dynamic response delay time due to the Ni layer is investigated.

Static and dynamic magnetostrictive behaviors of the TbFe/Ni/TbFe film are compared with a tri-layered TbFe film to discover the effects of a Ni thin layer on the improvement of magnetic moment and magnetostriction, as well as the reduction of dynamic response time under a low magnetic field. The Heisenberg model and Landau–Lifshitz–Gilbert equation were used to simulate magnetic domain motion. Time consumptions, in particular, were calculated to determine a uniformly magnetized state in Ni and TbFe layers. In addition, the magnetic moment together with the magnetostriction was examined with a fabricated magnetostrictive actuator. Contrary to a tri-layered conventional TbFe film, the TbFe/Ni/TbFe showed a higher magnetostrictive behavior even though a lower magnetic field was applied, corresponding to a low coercive force within the range of 0–10 kA/m. The dynamic magnetostriction response time, in particular, was also reduced to about 27 ms compared to the tri-layered TbFe film.