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Al-Qadi, Khalid; Wang, P.; Stadnik, Z. M.; Przewoźnik, J.

doi:10.1103/physrevb.79.224202

Cited by 15 publications

(12 citation statements)

References 101 publications

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“…It is also useful to compare the peak widths obtained in the present study on the binary i-Sc 12 Zn 88 with previous measurements on ternary Zn-M-Sc icosahedral alloys. To this end, in Figure 5, we plot the data for the PD sample along with the peak widths obtained from powder diffraction measurements on Zn 77 Fe 7 Sc 16 by Al-Qadi et al [16]. Although these data do not show a clear systematic dependence on Q perp over the range of their measurement, the peak widths for Q perp 1 Å are comparable to the present study.…”

Section: High-energy X-ray Diffraction Studies Of the Perfection Of Isupporting

confidence: 80%

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High-energy X-ray diffraction studies of i-Sc₁₂Zn₈₈

Goldman

Kreyßig

Nandi

et al. 2010

Philosophical Magazine

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Although quasicrystals form in a wide variety of ternary and quaternary metallic alloys, examples of stable binary icosahedral quasicrystals are quite rare. Indeed, it has been a decade since the discovery of icosahedral phases in Yb-Cd and Ca-Cd. We have discovered millimeter-sized facetted grains of i-Sc12Zn88 with icosahedral (pentagonal dodecahedral and rhombic triacontahedral) morphologies in solution-grown samples. Structural characterization of the bulk icosahedral phase was accomplished through single-grain high-energy X-ray diffraction. For both growth morphologies, all diffraction peaks could be indexed by a primitive (P-type) icosahedral phase. The two types of morphology do, however, present interesting differences in their respective degrees of quasicrystalline order.Although quasicrystals form in a wide variety of ternary and quaternary metallic alloys, examples of stable binary icosahedral quasicrystals are quite rare. Indeed, it has been a decade since the discovery of icosahedral phases in Yb-Cd and Ca-Cd. We have discovered millimeter-sized facetted grains of i-Sc 12 Zn 88 with icosahedral (pentagonal dodecahedral and rhombic triacontahedral) morphologies in solution-grown samples. Structural characterization of the bulk icosahedral phase was accomplished through single-grain high-energy X-ray diffraction. For both growth morphologies, all diffraction peaks could be indexed by a primitive (P-type) icosahedral phase. The two types of morphology do, however, present interesting differences in their respective degrees of quasicrystalline order.

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Section: High-energy X-ray Diffraction Studies Of the Perfection Of Isupporting

confidence: 80%

“…Q perp dependence of peak widths from the present study of the PD single-grain i-Sc12 Zn 88 (open squares: blue online) and the powder diffraction measurements of Al-Qadi et al (diamonds: green online)[16].…”

mentioning

confidence: 72%

High-energy X-ray diffraction studies of i-Sc₁₂Zn₈₈

Goldman

Kreyßig

Nandi

et al. 2010

Philosophical Magazine

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“…A -dependence of the magnetic susceptibility was observed for both the quasicrystal and the closely related ScZn 6 1/1 cubic approximant, consistent with the presence of a pseudogap in the density of states at the Fermi energy [89]. With the introduction of 3d TM elements, however, Curie–Weiss-like paramagnetism is recovered with effective moments substantially larger than what was previously observed for the Al-based quasicrystals [90–92]. For the Sc- TM -Zn quasicrystals it is generally presumed that the TM substitutions occupy the Zn-sites in the structure.…”

Section: Magnetism In Ternary Icosahedral Quasicrystalsmentioning

confidence: 53%

“…A cusp in the dc susceptibility at = 7.2 K and splitting between the FC and ZFC curves again signals a SG-like transition. Later measurements on icosahedral quasicrystals with the same starting compositions found somewhat different values for the effective moment and of /Fe and ≈ 11 K [92], or /Fe and ≈ 3 K [93], but very similar values for (figure 9). The source of discrepancies in the measured values for the effective moment has not been identified although it was speculated that even small changes in composition may strongly affect the moment value as was noted for the Al-based magnetic quasicrystals [21].…”

Section: Magnetism In Ternary Icosahedral Quasicrystalsmentioning

confidence: 93%

“…A comprehensive set of structural and bulk property measurements on powder samples of the Sc-Fe-Zn quasicrystal was reported by Al-Qadi et al , including x-ray diffraction, dc and ac susceptibility, TRM decay and 57 Fe Mössbauer spectroscopy [92]. The powder diffraction peak widths were quite narrow indicating a high degree of structural order in these samples and, in particular, there was no visible dependence of the peak widths on the phason momentum, [94], indicating the absence of any significant frozen in phason strain [95].…”

Section: Magnetism In Ternary Icosahedral Quasicrystalsmentioning

confidence: 99%

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Magnetism in icosahedral quasicrystals: current status and open questions

Goldman

2014

Science and Technology of Advanced Materials

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Progress in our understanding of the magnetic properties of R-containing icosahedral quasicrystals (R = rare earth element) from over 20 years of experimental effort is reviewed. This includes the much studied R-Mg-Zn and R-Mg-Cd ternary systems, as well as several magnetic quasicrystals that have been discovered and investigated more recently including Sc-Fe-Zn, R-Ag-In, Yb-Au-Al, the recently synthesized R-Cd binary quasicrystals, and their periodic approximants. In many ways, the magnetic properties among these quasicrystals are very similar. However, differences are observed that suggest new experiments and promising directions for future research.

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