Thermodynamic and electrical transport properties of UTe2 under uniaxial stress
Abstract
Despite intense experimental efforts, the nature of the unconventional superconducting order parameter of UTe2 remains elusive. This puzzle stems from different reported numbers of superconducting transitions at ambient pressure, as well as a complex pressure-temperature phase diagram. To bring new insights into the superconducting properties of UTe2, we measured the heat capacity and electrical resistivity of single crystals under compressive uniaxial stress σ applied along different crystallographic directions. We find that the critical temperature T c of the single observed bulk superconducting transition decreases with σ along [100] and [110] but increases with σ along [001]. Aside from its effect on T c, we notice that c-axis stress leads to a significant piezoresistivity, which we associate with the shift of the zero-pressure resistivity peak at T ≈ 15\, K to lower temperatures under stress. Finally, we show that an in-plane shear stress σxy does not induce any observable splitting of the superconducting transition over a stress range of σxy≈ 0.17 \, GPa. This result suggests that the superconducting order parameter of UTe2 may be single-component at ambient pressure.
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