Among the new discovered intermetallics in the Yb-Pd-Sn system, the cubic phase Yb3Pd4Sn13, with a lattice parameter of 0.9743(5) nm, emerges as a new member of the R3T4Sn13 family (R = rare earth element, T = transition metal) crystallizing in the Yb3Rh4Sn13-structure type. The effective magnetic moment e = 1:84 B/Yb is strongly reduced. Moreover, measurements of magnetic properties, specific heat and resistivity indicate superconductivity below 2.4 K. This compound is found to exhibit a strongly enhanced electronic specific heat at low temperature from which we infer a possible low-lying magnetic phase transition or other source of magnetic entropy.
Structural and physical properties of the new stannide Yb3Pd4Sn13
Giovannini M;
2017
Abstract
Among the new discovered intermetallics in the Yb-Pd-Sn system, the cubic phase Yb3Pd4Sn13, with a lattice parameter of 0.9743(5) nm, emerges as a new member of the R3T4Sn13 family (R = rare earth element, T = transition metal) crystallizing in the Yb3Rh4Sn13-structure type. The effective magnetic moment e = 1:84 B/Yb is strongly reduced. Moreover, measurements of magnetic properties, specific heat and resistivity indicate superconductivity below 2.4 K. This compound is found to exhibit a strongly enhanced electronic specific heat at low temperature from which we infer a possible low-lying magnetic phase transition or other source of magnetic entropy.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
