Enhancement and Discontinuity of Effective Mass through the First-Order Metamagnetic Transition in UTe2

Abstract

Metamagnetic transitions in the novel spin-triplet superconductor UTe2 were investigated through the newly developed simultaneous measurements of magnetization and sample temperature for the field along the orthorhombic b-axis and close to the [011] direction, where reentrant superconductivity (RSC) is detected below and above the first-order metamagnetic transition field H m. Combining the Maxwell's relation and the Clausius-Clapeyron equation, we obtained the field dependence of Sommerfeld coefficient γ through the first-order metamagnetic transition. A significant enhancement of the effective mass toward H m were detected for both field directions. On the other hand, above H m, the effective mass discontinuously decreases for H~||~b, while it discontinuously increases for H~||~ [011], which seems to make a crucial role for the RSC.