Magnetism of Tsai-type 1/1 approximants has been extensively investigated for the last decade. The experimental results on Tsai-type approximants are reviewed and the magnetic behaviors are classified and discussed in terms of the average electron-per-atom (e/a) ratio. The paramagnetic Curie-Weiss temperature # p is found to oscillate in a universal manner as a function of the e/a ratio, and the magnetic order systematically changes with the variation in # p . In addition, recent work shows that the 2/1 approximants also follow the trend observed for the 1/1 approximants, which implies that the magnetic phase diagram of the 1/1 approximants can be applicable to higher-order approximants including quasicrystals that are yet to be discovered.
Quasicrystals (QCs),
first discovered in 1984, generally do not
exhibit long-range magnetic order. Here, we report on long-range magnetic
order in the real icosahedral quasicrystals (i QCs)
Au–Ga–Gd and Au–Ga–Tb. The Au65Ga20Gd15
i QC exhibits a
ferromagnetic transition at T
C = 23 K,
manifested as a sharp anomaly in both magnetic susceptibility and
specific heat measurements, along with an appearance of magnetic Bragg
peak below T
C. This is the first observation
of long-range magnetic order in a real quasicrystal, in contrast to
the spin-glass-like behaviors observed for the other magnetic quasicrystals
found to date. Moreover, when Gd is replaced by Tb, i.e., for the
Au65Ga20Tb15
i QC,
a ferromagnetic behavior is still retained with T
C = 16 K. Although the sharp anomaly in the specific heat
observed for the Au65Ga20Gd15
i QC becomes broadened upon Tb substitution, neutron diffraction
experiments clearly show marked development of magnetic Bragg peaks
just below T
C, indicating long-range magnetic
order for the Au65Ga20Tb15
i QC also. Our findings can contribute to the further investigation
of exotic magnetic orders formed on real quasiperiodic lattices with unprecedented highest global symmetry, i.e., icosahedral
symmetry.
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