Abstract
Thermoelectric power ($S$) and Hall effect ($R_\mathrm{H}$) measurements on the paramagnetic superconductor UTe$_2$ with magnetic field applied along the hard magnetization $b$-axis are reported. The first order nature of the metamagnetic transition at $H_\mathrm{m}=H^b_\mathrm{c2}=35$~T leads to drastic consequences on $S$ and $R_\mathrm{H}$. In contrast to the field dependence of the specific heat in the normal state through $H_\mathrm{m}$, $S(H)$ is not symmetric with respect to $H_\mathrm{m}$. This implies a strong interplay between ferromagnetic (FM) fluctuations and a Fermi-surface reconstruction at $H_\mathrm{m}$. $R_\mathrm{H}$ is very well described by incoherent skew scattering above the coherence temperature $T_\mathrm{m}$ corresponding roughly to the temperature of the maximum in the susceptibility $T_{\chi_\mathrm{max}}$ and coherent skew scattering at lower temperatures. The discontinuous field dependence of both, $S(H)$ and the ordinary Hall coefficient $R_0$, at $H_\mathrm{m}$ and at low temperature, provides evidence of a change in the band structure at the Fermi level.
Highlights
The recent discovery of unconventional superconductivity (SC) in the uranium chalcogenide paramagnet UTe2 with a superconducting transition temperature of TSC ∼ 1.6 K [1,2,3] opens new perspectives on superconducting topological properties including emergent Majorana quasiparticles at the verge of magnetic and electronic instability
RH is very well described by incoherent skew scattering above the coherence temperature Tm corresponding roughly to the temperature of the maximum in the susceptibility Tχmax and coherent skew scattering at lower temperatures
The hysteresis closes and the jump vanishes, indicating that the first-order transition terminates at a critical end point (CEP) with TCEP ≈ 7 K in agreement with previous measurements [12,14]
Summary
The recent discovery of unconventional superconductivity (SC) in the uranium chalcogenide paramagnet UTe2 with a superconducting transition temperature of TSC ∼ 1.6 K [1,2,3] opens new perspectives on superconducting topological properties including emergent Majorana quasiparticles at the verge of magnetic and electronic instability. The large steplike increase of the residual term of the resistivity, ρ0, at the metamagnetic transition suggests that, in addition to magnetic fluctuations, a change in the carrier density may occur at the metamagnetic transition for H b [14]. For this purpose, we investigated the temperature and magnetic field dependencies of the Seebeck coefficient (S) up to 36 T and the Hall resistance (RH) up to 68 T of UTe2 for H b. The drastic changes in S and in the ordinary Hall effect (R0) at Hm point to a Fermi-surface reconstruction, contrasting with the rather symmetric behavior of the γ term [12] and of the A coefficient (the T 2 term of the resistivity) through Hm [14]
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