Uniaxial negative thermal expansion in a weak-itinerant-ferromagnetic phase of CoZr2H3.49

Abstract

We discovered unique uniaxial negative thermal expansion (NTE) behavior for a weak-itinerant-ferromagnetic phase of CoZr2H3.49. CoZr2 is known as a superconductor exhibiting uniaxial NTE along the c-axis, which is called anomalous thermal expansion (ATE). Additionally, CoZr2 is also known as a well-absorbent of hydrogen, and hydrogen insertion raises weak-itinerant ferromagnetism instead of superconductivity. However, the influence of hydrogen insertion on ATE behavior in this system is still unclear. To investigate it, we performed powder synchrotron X-ray diffraction (SXRD) for CoZr2H3.49. Through Arrott plots analysis, we determined the Curie temperature (TC) to be 139 K, and the Rhodes-Wohlfarth ratio was estimated to be 3.49, which clearly exceeds 1, suggesting the itinerancy of emerging ferromagnetism. Temperature dependencies of lattice constants a and c were extracted from powder SXRD analyses, and we revealed that lattice constant c exhibited NTE behavior below TC. The uniaxial NTE behavior along the c-axis can be understood by sharpening an antibonding Co3dz2 partial density of states near the Fermi level, linked to the expansion of a one-dimensional Co-Co chain running parallel to the c-axis.