2018
DOI: 10.1002/adfm.201800858
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Interaction of Trace Rare‐Earth Dopants and Nanoheterogeneities Induces Giant Magnetostriction in Fe‐Ga Alloys

Abstract: The discovery of a tenfold increase in magnetostriction of Fe by alloying nonmagnetic Ga was a breakthrough in magnetostrictive materials. The large magnetostriction is attributed to tetragonal nanoheterogeneities dispersed in the bcc matrix. A further remarkable fivefold increase is achieved by trace rare earth doping (<1 at%) up to a value of ≈1500 ppm, more than 50 times that of pure iron. However, it remains a mystery why trace rare earth dopants can induce such giant magnetostriction. Here, it is found th… Show more

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Cited by 73 publications
(32 citation statements)
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References 51 publications
(61 reference statements)
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“…In related compounds, namely Tb- and Ce-doped directionally solidified FeGa systems, an increase in magnetostriction has been linked to improved grain orientation and morphology [23,24]. Based on experimental and computational studies conducted by He et al, it is surmised that the giant magnetostriction in rare-earth doped FeGa alloys may be ascribed to the presence of nano-heterogeneties in the samples [28]. The dopants tend to enter the nano-heterogeneities, creating a larger tetragonal distortion of the matrix, as well as increased magnetocrystalline anisotropy.…”
Section: Resultsmentioning
confidence: 99%
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“…In related compounds, namely Tb- and Ce-doped directionally solidified FeGa systems, an increase in magnetostriction has been linked to improved grain orientation and morphology [23,24]. Based on experimental and computational studies conducted by He et al, it is surmised that the giant magnetostriction in rare-earth doped FeGa alloys may be ascribed to the presence of nano-heterogeneties in the samples [28]. The dopants tend to enter the nano-heterogeneities, creating a larger tetragonal distortion of the matrix, as well as increased magnetocrystalline anisotropy.…”
Section: Resultsmentioning
confidence: 99%
“…The dopants tend to enter the nano-heterogeneities, creating a larger tetragonal distortion of the matrix, as well as increased magnetocrystalline anisotropy. A mesoscopic model developed using phase field simulations shows that the bulk tetragonal distortion arises mainly from those nano-heterogeneities with fixed Ga–Ga pairs parallel to the applied magnetic field [28]. …”
Section: Resultsmentioning
confidence: 99%
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“…However, extended X-ray absorption fine-structure (XAFS) analysis of the second coordination shell around Ga provides clear evidence for the presence of one highly strained (+4%) Ga-Ga pair and five Ga-Fe pairs among six crystallographically equivalent <100> atomic pairs 2 . This result supports recent total energy calculations, in which the large magnetostriction in these alloys is attributed to the strain caused by the rotation of the magnetization in the vicinity of such defects.…”
Section: Mechanism Of Giant Magnetostrictionmentioning
confidence: 99%
“…Significant interest in magnetostrictive nanostructures dates back to the mid-1970s 1 , with many reports on thin films, multilayers, and superlattices exhibiting large magnetostriction [2][3][4] . In these planar systems, a large magnetostrictive strain on the order of 0.1% was observed for textured Co 0.75 Fe 0.25 thin films 5 , while Tb 0.3 Dy 0.7 Fe 2 bulk crystals showed magnetostriction λ 111 values of 0.16% 6,7 .…”
Section: Introductionmentioning
confidence: 99%