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RESEARCH PRODUCT

Crystallographic, electronic structure and magnetic properties of the GdTAl; T=Co, Ni and Cu ternary compounds

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Abstract Single phase GdCoAl, GdCuAl and single crystal GdNiAl samples of good quality were synthesized. The electrical resistivity, magnetization and AC susceptibility as a function of temperature revealed in all these compounds a ferromagnetic ordering at 100, 83 and 60 K, respectively. A magnetic transition, probably to a non-colinear structure was observed in GdNiAl at 31 K as well as the presence of the third magnetic transition at 14 K, while in the GdCuAl compound an evidence of similar transition was found at 23 K. In GdNiAl a transition between two different crystallographic phases of ZrNiAl-type was observed at 220 K. The transition was accompanied by rapid jumps of crystal lattice parameters and of the electrical resistivity. The structure determined above and below the transition point showed significant changes of the Gd–Gd and Gd–Ni interatomic distances. The observed phase transition was attributed to the filling of the Brillouin zone by the electrons at the Fermi level and to the rearrangement of the interatomic bond lengths, resulting in new density of states distribution and a lower density of states at the Fermi level. This assumption is consistent with the observed change of the relaxation rate between Gd 4f moments and the conduction electron system. The XPS investigation revealed the essential role played by the 3d electrons of the transition metals in these compounds. As a consequence, different contributions of d states to the valence band affect the structural, magnetic and transport properties of these compounds.