The influences of current density on chemical composition and magnetic properties of FeNix film prepared by electrodeposition

“…The phenomenon of magnetization switching in soft magnetic thin films holds significant scientific importance for the understanding of fundamental spin dynamics [1,2]. Moreover, it shows practical significance in magnetic device innovation, encompassing recent technological applications such as magnetoresistive random access memory (MRAM) [3][4][5], magnetic sensors [6][7][8], high-performance microwave filters and inductors [9]. In conjunction with magnetization switching, the magnetization relaxation mechanism and Gilbert damping (α) play pivotal role in determining real-time magnetization dynamics of the system and decides its suitability for spintronics devices [10,11].…”

Magnetization dynamics and domain reversal in electrodeposited permalloy thin films: impact of thickness and annealing treatment

“…The phenomenon of magnetization switching in soft magnetic thin films holds significant scientific importance for the understanding of fundamental spin dynamics [1,2]. Moreover, it shows practical significance in magnetic device innovation, encompassing recent technological applications such as magnetoresistive random access memory (MRAM) [3][4][5], magnetic sensors [6][7][8], high-performance microwave filters and inductors [9]. In conjunction with magnetization switching, the magnetization relaxation mechanism and Gilbert damping (α) play pivotal role in determining real-time magnetization dynamics of the system and decides its suitability for spintronics devices [10,11].…”

Magnetization dynamics and domain reversal in electrodeposited permalloy thin films: impact of thickness and annealing treatment

Magnetization Switching Dynamics of Electrodeposited Fe–Ni Thin Films