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Andreev Spectroscopy of EuCsFe4As4 Stoichiometric Superconducting Pnictide

S. A. Kuzmichev, K. S. Pervakov, В. А. Власенко, A. Yu. Degtyarenko, S. Yu. Gavrilkin, T. E. Kuzmicheva

2022Journal of Experimental and Theoretical Physics Letters14 citationsDOIOpen Access PDF

Abstract

EuCsFe 4 As 4 pnictide (1144 family) single crystals with a critical temperature of T c ≈ 36.8 K and optimal superconducting properties in the stoichiometric composition are grown. Multiple-gap superconductivity determined by bulk order parameters $$\Delta _{{\text{L}}}^{{{\text{out}}}}$$ , $$\Delta _{{\text{L}}}^{{{\text{in}}}}$$ , and $${{\Delta }_{{\text{S}}}}$$ with characteristic ratios $$2\Delta _{{\text{L}}}^{{{\text{out}}}}(0){\text{/}}{{k}_{{\text{B}}}}{{T}_{{\text{c}}}} \approx 5.3$$ , $$2\Delta _{{\text{L}}}^{{{\text{in}}}}(0){\text{/}}{{k}_{{\text{B}}}}{{T}_{{\text{c}}}} \approx 3.2$$ , and $$2{{\Delta }_{{\text{S}}}}(0){\text{/}}{{k}_{{\text{B}}}}{{T}_{{\text{c}}}} \approx 1.3$$ , respectively, is found for the first time below T c using incoherent multiple Andreev reflection effect spectroscopy. It is shown that the gap structure of EuCsFe 4 As 4 is similar to that of BaFe 2 – x Ni x As 2 superconducting pnictides of the sister 122 family.

Topics & Concepts

PnictogenPhysicsSuperconductivityOrder (exchange)Andreev reflectionCondensed matter physicsCrystallographyStoichiometrySpectroscopyQuantum mechanicsChemistryFinanceOrganic chemistryEconomicsIron-based superconductors researchPhysics of Superconductivity and MagnetismIntellectual Capital and Performance Analysis
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