Dresden 2026 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 5: Superconductivity: Sample Preparation and Characterization

TT 5.11: Vortrag

Montag, 9. März 2026, 12:15–12:30, CHE/0089

Multiple superconducting transitions in Yb_3+xCo₄Sn_13−x — •Roman Gumeniuk¹, Meret Orlob¹, Volodymyr Levytskyi¹, Alexander A. Tsirlin², Bohdan Kundys³, and Andreas Leithe-Jasper⁴ — ¹Institut für Experimentelle Physik, TU Bergakademie Freiberg, 09596 Freiberg, Germany — ²Felix-Bloch-Institut für Festkörperphysik, Universität Leipzig, 04103 Leipzig, Germany — ³Université de Strasbourg, CNRS, Institut de Physique et Chimie des Matériaux, Strasbourg F-67000, France — ⁴Max-Planck-Institut für Chemische Physik fester Stoffe, 01187 Dresden, Germany

Yb_3+xCo₄Sn_13−x is shown to posses homogeneity range within 0≤ x ≤0.5. For all x a primitive cubic [space group Pm3n, a≈9.54 Å] structure of strongly disordered Sc₃Ir₄Si_13+x type is found. Despite showing no signatures of presence of additional phases, different pieces of the same stoichiometric Yb₃Co₄Sn₁₃ sample revealed multiple superconducting transitions of varying intensity at T_c = 3.1(2) K and T_c = 2.4(2) K in temperature dependence of specific heat. On the other hand, Yb_3.2Co₄Sn_12.8 is found to be a strongly coupled superconductor with single transition at T_c = 2.4(2) K and enhanced critical magnetic field B_c2=4.79(9) T. To shed light on superconducting behaviors in both stannides diverse models were applied to describe B_c2(T_c) and c_el(T) dependencies. Both Yb_3+xCo₄Sn_13−x (x=0, 0.2) compounds reveal bosonic peaks in specific heat and thus, possible ‘rattling’ behavior. They are also metallic systems, some aspects of which are described by a free electron gas model [1].
[1] M. Orlob et al., Phys. Rev. B 112 (2025) 174513

Keywords: superconductivity; magnetism; electronic density of state; crystal structure