Pressure Tuning the Mixture of Eu2+ and Eu3+ in Eu4Bi6Se13

Abstract

The investigation of crystallographic, electronic, and magnetic characteristics, especially the mixed valences of Eu2+ and Eu3+ under pressure of a novel europium-based bismuth selenide compound, Eu4Bi6Se13, presented. This new compound adopts a monoclinic crystal structure classified under the P21/m space group (#11). It exhibits distinctive structural features, including substantial Eu-Se coordination numbers, Bi-Se ladders, and linear chains of Eu atoms that propagate along the b-axis. Electronic resistivity assessments indicate that Eu4Bi6Se13 exhibits weak metallic behaviors. Magnetic characterization reveals uniaxial magnetic anisotropy, with a notable spin transition at approximately 1.2 T when the magnetic field is oriented along the b-axis. This behavior, coupled with the specific Eu-Eu interatomic distances and the magnetic saturation observed at low fields, supports the identification of metamagnetic properties attributable to the flipping of europium spins. The Curie-Weiss analysis of the magnetic susceptibility measured both perpendicular and parallel to the b-axis and high-pressure partial fluorescence yield (PFY) results detected by X-ray absorption spectroscopy (XAS) reveal the tendency of the material to enter a mixed valent state where the trivalent state becomes more prominent with the pressure increase or temperature decrease.