Raising the superconducting Tc of gallium: in-situ characterization of the transformation of α-Ga into β-Ga

Abstract

Gallium (Ga) displays several metastable phases. Superconductivity is strongly enhanced in the metastable β-Ga with a critical temperature Tc= 6.04(5)\,K, while stable α-Ga has a much lower Tc<1.2\,K. Here we use a membrane-based nanocalorimeter to initiate the transition from α-Ga to β-Ga on demand, as well as study the specific heat of the two phases on one and the same sample. The in-situ transformation is initiated by bringing the temperature to about 10\,K above the melting temperature of α-Ga. After such treatment, the liquid supercools down to 232\,K, where β-Ga solidifies. We find that β-Ga is a strong-coupling type-I superconductor with (0)/kBTc =2.00(5) and a Sommerfeld coefficient γn = 1.53(4)\,mJ/molK2, 2.55 times higher than that in the α phase. The results allow a detailed comparison of fundamental thermodynamic properties between the two phases.