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Creating superconductivity in WB2 through pressure-induced metastable planar defects

https://doi.org/10.1038/s41467-022-35191-8

Lim, J. ; Hire, A. C. ; Quan, Y. ; Kim, J. S. ; Xie, S. R. ; Sinha, S. ; Kumar, R. S. ; Popov, D. ; Park, C. ; Hemley, R. J. ; et al ( December 2022 , Nature Communications)

Abstract High-pressure electrical resistivity measurements reveal that the mechanical deformation of ultra-hard WB 2 during compression induces superconductivity above 50 GPa with a maximum superconducting critical temperature, T c of 17 K at 91 GPa. Upon further compression up to 187 GPa, the T c gradually decreases. Theoretical calculations show that electron-phonon mediated superconductivity originates from the formation of metastable stacking faults and twin boundaries that exhibit a local structure resembling MgB 2 (hP3, space group 191, prototype AlB 2 ). Synchrotron x-ray diffraction measurements up to 145 GPa show that the ambient pressure hP12 structure (space group 194, prototype WB 2 ) continues to persist to this pressure, consistent with the formation of the planar defects above 50 GPa. The abrupt appearance of superconductivity under pressure does not coincide with a structural transition but instead with the formation and percolation of mechanically-induced stacking faults and twin boundaries. The results identify an alternate route for designing superconducting materials.
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High-pressure study of the low- Z rich superconductor Be22Re

https://doi.org/10.1103/PhysRevB.104.064505

Lim, J. ; Hire, A. C. ; Quan, Y. ; Kim, J. ; Fanfarillo, L. ; Xie, S. R. ; Kumar, R. S. ; Park, C. ; Hemley, R. J. ; Vohra, Y. K. ; et al ( August 2021 , Physical Review B)
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Pressure-induced suppression of ferromagnetism in CePd2P2

https://doi.org/10.1103/PhysRevB.102.125146

Elmslie, T. A. ; VanGennep, D. ; Bi, W. ; Lai, Y. ; Weir, S. T. ; Vohra, Y. K ; Baumbach, R. E. ; Hamlin, J. J. ( September 2020 , Physical review)

The correlated electron material CePd2P2 crystallizes in the ThCr2Si2 structure and orders ferromagnetically at 29 K. Prior work by Lai et al. [Phys. Rev. B 97, 224406 (2018)] found evidence for a ferromagnetic quantum critical point induced by chemical compression via substitution of Ni for Pd. However, disorder effects due to the chemical substitution interfere with a simple analysis of the possible critical behavior. In the present paper, we examine the temperature—pressure—magnetic-field phase diagram of single crystalline CePd2P2 to 25 GPa using a combination of resistivity, magnetic susceptibility, and x-ray diffraction measurements. We find that the ferromagnetism appears to be destroyed near 12 GPa, without any change in the crystal structure.
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Possible pressure-induced topological quantum phase transition in the nodal line semimetal ZrSiS

https://doi.org/10.1103/PhysRevB.99.085204

VanGennep, D. ; Paul, T. A. ; Yerger, C. W. ; Weir, S. T. ; Vohra, Y. K. ; Hamlin, J. J. ( February 2019 , Physical Review B)
Superconductivity of barium-VI synthesized via compression at low temperatures

https://doi.org/10.1103/PhysRevB.96.184514

Jackson, D. E. ; VanGennep, D. ; Vohra, Y. K. ; Weir, S. T. ; Hamlin, J. J. ( November 2017 , Physical Review B)
Pressure-induced superconductivity in the giant Rashba system BiTeI

https://doi.org/10.1088/1361-648X/aa5567

VanGennep, D ; Linscheid, A ; Jackson, D E ; Weir, S T ; Vohra, Y K ; Berger, H ; Stewart, G R ; Hennig, R G ; Hirschfeld, P J ; Hamlin, J J ( March 2017 , Journal of Physics: Condensed Matter)

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Pressure effects in the itinerant antiferromagnetic metal TiAu

https://doi.org/10.1103/PhysRevB.95.214403

Wolowiec, C. T. ; Fang, Y. ; McElroy, C. A. ; Jeffries, J. R. ; Stillwell, R. L. ; Svanidze, E. ; Santiago, J. M. ; Morosan, E. ; Weir, S. T. ; Vohra, Y. K. ; et al ( June 2017 , Physical Review B)
Tuning the electronic and the crystalline structure of LaBi by pressure: From extreme magnetoresistance to superconductivity

https://doi.org/10.1103/PhysRevB.95.014507

Tafti, F. F. ; Torikachvili, M. S. ; Stillwell, R. L. ; Baer, B. ; Stavrou, E. ; Weir, S. T. ; Vohra, Y. K. ; Yang, H.-Y. ; McDonnell, E. F. ; Kushwaha, S. K. ; et al ( January 2017 , Physical Review B)
Optically detected magnetic resonance of nitrogen vacancies in a diamond anvil cell using designer diamond anvils

https://doi.org/10.1063/1.5004153

Steele, L. G. ; Lawson, M. ; Onyszczak, M. ; Bush, B. T. ; Mei, Z. ; Dioguardi, A. P. ; King, J. ; Parker, A. ; Pines, A. ; Weir, S. T. ; et al ( November 2017 , Applied Physics Letters)