Abstract
α -HoAlB4 and α-ErAlB4 were synthesized, and their magnetic properties and specific heat investigated in comparison with other known rare-earth analogs. Recent developments in rare-earth aluminoboride compounds with two-dimensional boron layers have attracted interest due to the heavy fermion superconductivity in β-YbAlB4, multiple anomalies manifesting below the Néel temperatures in α-TmAlB4 attributed to intrinsic building defects, and field stable state in Tm2AlB6. Strikingly, α-HoAlB4 and α-ErAlB4 were discovered to exhibit superparamagnetic or spin glass behavior in contrast to the magnetic ordering or nonordering observed for the other rare-earth element compounds. The magnetic field dependence of the irreversibility was consistent with the de Almeida Thouless (AT) line versus the quadratic suppression typically observed for antiferromagnetic systems. The specific heat exhibited behavior indicative of a multilevel Schottky anomaly and four states of the 5I8 Hund’s rule multiplet of Ho3+ are indicated to lie below 20 K. While building defects are not evident, it is indicated that disorder is strong in α-HoAlB4 and α-ErAlB4 and possible ferromagnetic interactions can be giving rise to frustration.
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