Superconductivity in breathing kagome-structured C14 Laves phase XOs2(X = Zr, Hf)

P K Meena,R P Singh,M Mandal,S Srivastava,S Sharma,P Manna,P Mishra

doi:10.1088/1361-6668/ad4a32

Superconductivity in breathing kagome-structured C14 Laves phase XOs2(X = Zr, Hf)

P K Meena, R P Singh + Show 5 more

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Journal: Superconductor Science and Technology	Publication Date: May 29, 2024
License type: iop-standard

#Specific Heat Measurements #Topological Electronic States #Kagome Metals #Flat Bands #Electrical Transport #Critical Temperature Values #Critical Temperature #Electrical Transport Measurements #Flat States #Magnetization Heat

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Recently, the emergence of superconductivity in kagome metals has generated significant interest due to its interaction with flat bands and topological electronic states, which exhibit a range of unusual quantum characteristics. This study thoroughly investigates largely unexplored breathing kagome structure C14 Laves phase compounds XOs2 (X = Zr, Hf) by XRD, electrical transport, magnetization, and specific heat measurements. Our analyses confirm the presence of the MgZn2-type structure in ZrOs2 and HfOs2 compounds, exhibiting type-II superconductivity with critical temperature ( TC ) values of 2.90(3) K and 2.69(6) K, respectively. Furthermore, specific heat measurements and electron–phonon coupling constants for both compounds indicate weakly coupled fully gapped superconductivity.

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Superconductivity in breathing kagome-structured C14 Laves phase XOs2(X = Zr, Hf)