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http://dx.doi.org/10.9714/psac.2015.17.3.009

Transition temperatures and upper critical fields of NbN thin films fabricated at room temperature  

Hwang, T.J. (Yeungnam University)
Kim, D.H. (Yeungnam University)
Publication Information
Progress in Superconductivity and Cryogenics / v.17, no.3, 2015 , pp. 9-12 More about this Journal
Abstract
NbN thin films were deposited on thermally oxidized Si substrate at room temperature by using reactive magnetron sputtering in an $Ar-N_2$ gas mixture. Total sputtering gas pressure was fixed while varying $N_2$ flow rate from 1.4 sccm to 2.9 sccm. X-ray diffraction pattern analysis revealed dominant NbN(200) orientation in the low $N_2$ flow rate but emerging of (111) orientation with diminishing (200) orientation at higher flow rate. The dependences of the superconducting properties on the $N_2$ gas flow rate were investigated. All the NbN thin films showed a small negative temperature coefficient of resistance with resistivity ratio between 300 K and 20 K in the range from 0.98 to 0.89 as the $N_2$ flow rate is increased. Transition temperature showed non-monotonic dependence on $N_2$ flow rate reaching as high as 11.12 K determined by the mid-point temperature of the transition with transition width of 0.3 K. On the other hand, the upper critical field showed roughly linear increase with $N_2$ flow rate up to 2.7 sccm. The highest upper critical field extrapolated to 0 K was 17.4 T with corresponding coherence length of 4.3 nm. Our results are discussed with the granular nature of NbN thin films.
Keywords
Niobium nitride thin film; reactive magnetron sputtering; granular superconductivity; nitrogen flow rate;
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