DOI: 10.1103/jdhy-4xf5 ISSN: 2475-9953

Tuning superconductivity in high entropy nitrides

Gabriel Pristáš, Slavomír Gabáni, Július Bačkai, Oleksandr Onufriienko, Lukas Kölbl, Magdalena Kirchmair, Christian Mitterer, Karol Flachbart

The recently investigated nitrogen (N) incorporation into TiNbMoTaW high entropy alloy films leads to a domelike superconducting transition temperature T C vs nitrogen concentration x (with x = N / M representing the ratio between atomic fractions of nitrogen and metal atoms, M = Ti + Nb + Mo + Ta + W ) in the respective high entropy nitride ( TiNbMoTaW ) 1.0 N x , with a large T C enhancement. In this study, we report on the effect of N insertion into NbTaHfTiZr films, which show a lower valence electron concentration and a lower configuration entropy than those of TiNbMoTaW. The T C vs x dependence in ( NbTaHfTiZr ) 1.0 N x exhibits a different course, in which T C first decreases from 6.5 K at x = 0 to T C 1 K at x = 0.25 and x = 0.42 , and then starts to increase and reaches a maximum of 8.6 K at x = 0.81 followed by a decline to 6.7 K when x approaches the stoichiometric value 1. In this case, the transition of the initial high entropy alloy bcc structure to the fcc structure of high entropy nitrides proceeds slowly and leads to a wide x range in which T C is suppressed. The analysis shows that the T C vs x course and the T C enhancement in high entropy nitrides depend on the valence electron concentration of the initial high entropy alloy, as higher values accelerate the tendency to form a fcc structure and are less sensitive to the localization of otherwise mobile electrons in metallic high entropy alloys due to their bonding to N atoms. However, other parameters, such as the atomic size difference of the metallic constituents and their affinity towards nitrogen, also have to be considered.

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