2017
DOI: 10.1103/physrevmaterials.1.074403
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Magnetic small-angle neutron scattering on bulk metallic glasses: A feasibility study for imaging displacement fields

Abstract: Magnetic-field-dependent small-angle neutron scattering (SANS) has been utilized to study the magnetic microstructure of bulk metallic glasses (BMGs). In particular, the magnetic scattering from soft magnetic Fe 70 Mo 5 Ni 5 P 12.5 B 2.5 C 5 and hard magnetic (Nd 60 Fe 30 Al 10 ) 92 Ni 8 alloys in the as-prepared, aged, and mechanically deformed state is compared. While the soft magnetic BMGs exhibit a large field-dependent SANS response with perturbations originating predominantly from spatially varying magn… Show more

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Cited by 8 publications
(6 citation statements)
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“…In these materials, such as Pd-Fe-Mn, Cr-Fe, Au-Fe, Ni-Mn, Fe 3−x Al x , a-(Fe 1−x Mn x ) 75 P 16 B 6 Al 3 , and a-Fe-Zr, a paramagnet-to-FM transition on cooling is followed by a transition to a spin-glass, i.e., from an ordered to a glassy state (Aeppli et al, 1983;Garcia-Calderón et al, 2005;Rhyne and Fish, 1985;Shapiro et al, 1980). SANS has been used for decades to probe magnetic ordering and correlation lengths in such alloys (Mettus et al, 2017), which have proven challenging to understand. As discussed in a-Fe 1−x Zr x , nanoscale magnetic inhomogeneity is common to essentially all models, where FM order coexists with spin-glass regions (Garcia-Calderón et al, 2005).…”
Section: Complex Magnetic Alloysmentioning
confidence: 99%
“…In these materials, such as Pd-Fe-Mn, Cr-Fe, Au-Fe, Ni-Mn, Fe 3−x Al x , a-(Fe 1−x Mn x ) 75 P 16 B 6 Al 3 , and a-Fe-Zr, a paramagnet-to-FM transition on cooling is followed by a transition to a spin-glass, i.e., from an ordered to a glassy state (Aeppli et al, 1983;Garcia-Calderón et al, 2005;Rhyne and Fish, 1985;Shapiro et al, 1980). SANS has been used for decades to probe magnetic ordering and correlation lengths in such alloys (Mettus et al, 2017), which have proven challenging to understand. As discussed in a-Fe 1−x Zr x , nanoscale magnetic inhomogeneity is common to essentially all models, where FM order coexists with spin-glass regions (Garcia-Calderón et al, 2005).…”
Section: Complex Magnetic Alloysmentioning
confidence: 99%
“…where j 0 (x) = sin(x)/x denotes the zeroth-order spherical Bessel function. The correlation function C(r) and the corresponding distance distribution function p(r) = r 2 C(r) can be extracted by either a direct [27][28][29][30] or an indirect [31][32][33][34][35][36] Fourier transform of d +− /d . Figure 6(b) shows the computed p(r).…”
Section: Polarized Sans Datamentioning
confidence: 99%
“…Using the two-dimensional d M /d , the normalized magnetic correlation function c(y, z) can be numerically computed according to [53,54]…”
Section: Resultsmentioning
confidence: 99%