Abstract
We present the results of ac and dc susceptibility, magnetization, magnetic relaxation, specific heat, and electrical resistivity measurements on U2AuGa3, an orthorhombic CeCu2-type nonmagnetic atom disorder system. These data clearly indicate that U2AuGa3 undergoes a spin glass phase transition at a static freezing temperature Ts=23.6K, in spite of the lack of triangular magnetic structure. It is observed that the variation of the characteristic temperature Tir (the bifurcation point between field-cooled and zero-field-cooled susceptibilities) with applied field H for U2AuGa3 is not consistent with the “AT line,” but follows a Tir∝−H2∕5 law. The observed spin glass behavior and the formation of frustrated magnetic interactions in U2AuGa3 are discussed in a magnetic cluster model.
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