Possible Proximity to Ferromagnetism in the V2Ga5 Superconductor

Abstract

Superconductivity and ferromagnetism are generally competing ground states in d-electron systems, making their interplay of fundamental interest. We report a comprehensive study of high-quality single- and polycrystalline V2Ga5, a bulk type-II superconductor (Tc = 3.54 \ K) with a quasi-one-dimensional crystal structure, supplemented with density functional theory (DFT) calculations, suggesting possible proximity to ferromagnetic order. Below T ≈ 10 \ K, magnetic susceptibility shows ZFC/FC splitting, along with saturation and hysteresis in M(H). Moreover, electrical transport measurements reveal a magnetic-field-dependent resistivity upturn, while specific heat is enhanced in magnetic fields. DFT calculations show that the Fermi level in V2Ga5 is located at a peak in the density of states, with a small magnetic moment per unit cell comparable to the experimental value. Together, these results indicate the possibility that ferromagnetic correlations develop below T ≈ 10 \ K, well above Tc, with long-range ferromagnetic order suppressed by the superconducting transition.