Substrate mediated nitridation of niobium into superconducting Nb2N thin films for phase slip study
Bikash Gajar, Sachin Yadav, Deepika Sawle, Kamlesh K. Maurya, Anurag, Gupta, R.P. Aloysius, Sangeeta Sahoo

TL;DR
This study introduces a high-temperature annealing nitridation method to produce superconducting Nb2N thin films from niobium, revealing complex phase slip phenomena and potential for phase slip device applications.
Contribution
It presents a novel nitridation technique for creating superconducting Nb2N films and explores their phase slip behavior, which was not previously characterized.
Findings
Nb2N films are superconducting below 1K.
Transition width depends on film thickness and exhibits phase slip features.
Resistive tailing suggests quantum fluctuations and finite size effects.
Abstract
Here we report a novel nitridation technique for transforming niobium into hexagonal Nb2N which appears to be superconducting below 1K. The nitridation is achieved by high temperature annealing of Nb films grown on Si3N4/Si (100) substrate under high vacuum. The structural characterization directs the formation of a majority Nb2N phase while the morphology shows granular nature of the films. The temperature dependent resistance measurements reveal a wide metal-to-superconductor transition featuring two distinct transition regions. The region close to the normal state varies strongly with the film thickness, whereas, the second region in the vicinity of the superconducting state remains almost unaltered but exhibiting resistive tailing. The current-voltage characteristics also display wide transition embedded with intermediate resistive states originated by phase slip lines. The…
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