Thermodynamic and electrical transport properties of UTe\(_2\) under uniaxial stress
Despite intense experimental efforts, the nature of the unconventional superconducting order parameter of UTe\(_2\) 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...
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| creator | Girod, Clément Stevens, Callum R Huxley, Andrew Bauer, Eric D Santos, Frederico B Thompson, Joe D Fernandes, Rafael M Zhu, Jian-Xin Ronning, Filip Rosa, Priscila F S Thomas, Sean M |
| description | Despite intense experimental efforts, the nature of the unconventional superconducting order parameter of UTe\(_2\) 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 UTe\(_2\), we measured the heat capacity and electrical resistivity of single crystals under compressive uniaxial stress \(\sigma\) applied along different crystallographic directions. We find that the critical temperature \(T_{\rm c}\) of the single observed bulk superconducting transition decreases with \(\sigma\) along \([100]\) and \([110]\) but increases with \(\sigma\) along \([001]\). Aside from its effect on \(T_{\rm c}\), we notice that \(c\)-axis stress leads to a significant piezoresistivity, which we associate with the shift of the zero-pressure resistivity peak at \(T^\star \approx 15\, \rm K\) to lower temperatures under stress. Finally, we show that an in-plane shear stress \(\sigma_{xy}\) does not induce any observable splitting of the superconducting transition over a stress range of \(\sigma_{xy}\approx 0.17 \, \rm GPa\). This result suggests that the superconducting order parameter of UTe\(_2\) may be single-component at ambient pressure. |
| doi_str_mv | 10.48550/arxiv.2205.04588 |
| format | Article |
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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 UTe\(_2\), we measured the heat capacity and electrical resistivity of single crystals under compressive uniaxial stress \(\sigma\) applied along different crystallographic directions. We find that the critical temperature \(T_{\rm c}\) of the single observed bulk superconducting transition decreases with \(\sigma\) along \([100]\) and \([110]\) but increases with \(\sigma\) along \([001]\). Aside from its effect on \(T_{\rm c}\), we notice that \(c\)-axis stress leads to a significant piezoresistivity, which we associate with the shift of the zero-pressure resistivity peak at \(T^\star \approx 15\, \rm K\) to lower temperatures under stress. Finally, we show that an in-plane shear stress \(\sigma_{xy}\) does not induce any observable splitting of the superconducting transition over a stress range of \(\sigma_{xy}\approx 0.17 \, \rm GPa\). This result suggests that the superconducting order parameter of UTe\(_2\) may be single-component at ambient pressure.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.2205.04588</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Compressive properties ; Critical temperature ; Crystallography ; Electrical resistivity ; Order parameters ; Phase diagrams ; Piezoresistivity ; Pressure ; Shear stress ; Single crystals ; Superconductivity ; Transport properties</subject><ispartof>arXiv.org, 2022-05</ispartof><rights>2022. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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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 UTe\(_2\), we measured the heat capacity and electrical resistivity of single crystals under compressive uniaxial stress \(\sigma\) applied along different crystallographic directions. We find that the critical temperature \(T_{\rm c}\) of the single observed bulk superconducting transition decreases with \(\sigma\) along \([100]\) and \([110]\) but increases with \(\sigma\) along \([001]\). Aside from its effect on \(T_{\rm c}\), we notice that \(c\)-axis stress leads to a significant piezoresistivity, which we associate with the shift of the zero-pressure resistivity peak at \(T^\star \approx 15\, \rm K\) to lower temperatures under stress. Finally, we show that an in-plane shear stress \(\sigma_{xy}\) does not induce any observable splitting of the superconducting transition over a stress range of \(\sigma_{xy}\approx 0.17 \, \rm GPa\). 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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 UTe\(_2\), we measured the heat capacity and electrical resistivity of single crystals under compressive uniaxial stress \(\sigma\) applied along different crystallographic directions. We find that the critical temperature \(T_{\rm c}\) of the single observed bulk superconducting transition decreases with \(\sigma\) along \([100]\) and \([110]\) but increases with \(\sigma\) along \([001]\). Aside from its effect on \(T_{\rm c}\), we notice that \(c\)-axis stress leads to a significant piezoresistivity, which we associate with the shift of the zero-pressure resistivity peak at \(T^\star \approx 15\, \rm K\) to lower temperatures under stress. Finally, we show that an in-plane shear stress \(\sigma_{xy}\) does not induce any observable splitting of the superconducting transition over a stress range of \(\sigma_{xy}\approx 0.17 \, \rm GPa\). This result suggests that the superconducting order parameter of UTe\(_2\) may be single-component at ambient pressure.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.2205.04588</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Compressive properties Critical temperature Crystallography Electrical resistivity Order parameters Phase diagrams Piezoresistivity Pressure Shear stress Single crystals Superconductivity Transport properties |
| title | Thermodynamic and electrical transport properties of UTe\(_2\) under uniaxial stress |
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