Low Frequency Giant Magneto-Impedance Effect of Co-Rich Ribbons Induced by Joule Annealing Treatment

Abstract: The giant magneto-impedance (GMI) effect of Co83.2Fe5.2Si8.8B2.8 ribbons at frequencies of <1 MHz was analyzed. To improve the GMI response, a Joule annealing treatment was conducted with a direct current, and the domain structure of the ribbon surface was investigated via magneto-optical Kerr effect microscopy. The annealed ribbons show larger impedance changes under external magnetic fields, and higher field sensitivity is obtained by certain current annealing treatments. The field sensitivity of 418 and … Show more

“…The stress-induced giant magnetoimpedance (GMI) effect, also known as the giant-stress impedance effect, has garnered increasing attention from different researchers due to its promising application prospects. The investigation of the GMI effect has progressively expanded to encompass a variety of soft magnetic materials, such as amorphous ribbons [1], amorphous wires [2], thin films [3], and multilayered thin films [4]. Amorphous ribbons are often considered ideal for GMI sensor applications due to their low hysteresis and tunable magnetic anisotropy.…”

Study on tensile stress-induced giant magnetoimpedance effects in flexible amorphous ribbon meanders

“…The stress-induced giant magnetoimpedance (GMI) effect, also known as the giant-stress impedance effect, has garnered increasing attention from different researchers due to its promising application prospects. The investigation of the GMI effect has progressively expanded to encompass a variety of soft magnetic materials, such as amorphous ribbons [1], amorphous wires [2], thin films [3], and multilayered thin films [4]. Amorphous ribbons are often considered ideal for GMI sensor applications due to their low hysteresis and tunable magnetic anisotropy.…”

Study on tensile stress-induced giant magnetoimpedance effects in flexible amorphous ribbon meanders