Publisher’s Note: “Low-temperature magnetic properties and the crystallization behavior of FINEMET alloy” [J. Appl. Phys. 93, 6182 (2003)]

“…7). The as-spun sample showed a characteristic bimodal distribution for the hyperfine field conforming to the earlier results reported in literature for similar alloys [4,14,15]. The most probable field at around 24 T for the as spun sample may be due to Fe rich regions and the low field peak near 12 T may arise due to the Fe atoms with Mo and Cu as nearest neighbours.…”

“…are nanocrystalline soft magnetic materials which have been extensively studied [1][2][3][4]. These materials have wide technological applications because of their excellent soft magnetic properties.…”

Exchange field penetration in Fe73.5Cu1Mo3Si12.5Al1B9 alloy

“…7). The as-spun sample showed a characteristic bimodal distribution for the hyperfine field conforming to the earlier results reported in literature for similar alloys [4,14,15]. The most probable field at around 24 T for the as spun sample may be due to Fe rich regions and the low field peak near 12 T may arise due to the Fe atoms with Mo and Cu as nearest neighbours.…”

“…are nanocrystalline soft magnetic materials which have been extensively studied [1][2][3][4]. These materials have wide technological applications because of their excellent soft magnetic properties.…”

Exchange field penetration in Fe73.5Cu1Mo3Si12.5Al1B9 alloy

“…5). The as-spun sample with 0% Al showed a characteristic bimodal distribution [4,[11][12][13][14]. Miglierini et al [12] have made similar observation regarding the hyperfine field distribution of FINEMET alloys and attributed the bimodal distribution to the presence of two distinct types of surroundings for the resonant atom.…”

“…is one of the state of the art magnetic materials which has been extensively studied in the literature [1][2][3][4]. These materials have found applications in transformer cores, choke coils, and EMI filters, for example.…”

Effect of Al substitution on the magnetic properties of amorphous Fe73.5Cu1Mo3Si13.5−xAlxB9 alloy

“…From this behaviour, the softness of the materials can be estimated. Some reports by Chattopadhyay and colleagues [205][206][207] give important results on Finemet alloy research. They prepared Fe 73 .…”

Study of materials using Mössbauer spectroscopy