Dynamic magnetic properties of Ni2FeGa Heusler alloy nanoparticles

Here, the high-quality single crystal Ni2FeGa nanocrystallines with gamma phase or L2(1) phase were successfully synthesized by using high-temperature hydrogen reduction method and adjusting the content of salt ions and the dynamic magnetic properties of them have been investigated. The expansion coefficient of L2(1) phase nanocrystallines was determined to be as high as 1.06x10(-5) K-1 and the temperature-dependent damping factors be 0.0118 to 0.0234 in the temperature range 150-330 K. The results of dynamic magnetic properties revealed that the number of phonons increases with the temperature increase, which leads to the decrease of relaxation time tau and increase of the damping factor. Meanwhile, the temperature-dependent dynamic magnetic properties of L2(1) phase Ni2FeGa nanocrystallines showed that there is no obvious change in the effect of crystal field on the freezing of angular momentum of magnetic elements of Ni and Fe ions in the range of 100-300 K. Due to the easily adjustable shape, composition, and magnetization, the Ni-Fe-Ga nanoparticles have excellent microwave absorption properties in wide frequency range, which is a potential microwave absorption material.

Automated summary

High-quality single crystal Ni2FeGa nanocrystallines with gamma phase or L2(1) phase were successfully synthesized using high-temperature hydrogen reduction method. By adjusting the content of salt ions, the dynamic magnetic properties of the nanocrystallines were investigated, revealing temperature-dependent behavior. The Ni-Fe-Ga nanoparticles show excellent potential as a microwave absorption material due to their easily adjustable properties.