Rotational bands in nuclei as induced group representations: L. Weaver. Department of Physics, Kansas State University, Manhattan, Kansas 66502 and L. C. Biedenharn and R. Y. Cusson. Department of Physics, Duke University, Durham, North Carolina 27706

Abstract

We present the temperature magnetic phase diagram of the compound DyFe4Ge2 determined from neutron diffraction data for the entire magnetically ordered regime. DyFe4Ge2 undergoes at TN,Tc=55K a simultaneous structural and magnetic transition of second order (or weakly first order) followed by two subsequent isostructural first-order magnetic transitions at Tic2=45K and Tic1=28K: The re-entrant lock-in magnetic phase q1=(0120) is stable in the high-temperature range Tic2–TN and in the low-temperature range 1.5 K–Tic1 while the incommensurately modulated q2=(0qy0) magnetic phase is sandwiched in the intermediate range Tic1–Tic2 between the two commensurate phases. The wave vector q2 has a temperature-dependent length with a minimum in the middle of the incommensurate range and corresponds to a multiaxial amplitude modulated phase. Symmetry analysis leads for both propagation vectors in Cmmm to a twofold and fourfold splitting of the tetragonal Dy 2b site and the Fe 8i sites, respectively. The low temperature q1=(0120) and the q2=(0qy0) phases correspond to 3D canted magnetic structures described by the irreducible representations (Irreps) Γ2+Γ3 while the high-temperature q1 phase to 2D canted magnetic structures described by a single Irrep Γ2. The Tic2 transition is connected with reorientations of both Fe and Dy moments.