Investigation Of The Upper Critical Field In Artificially Engineered Nb/V/Ta Superlattices

Artificially engineered superlattice offers highly flexible control of the quantized electronic state by manipulating its lattice structure. We fabricated artificially engineered superlattices [Nb/V/Ta](n) as a new class of superconducting superlattices and investigated the upper critical field H-c2 in terms of the structural difference. It is found that the out-of-plane upper critical field H-c2 perpendicular to significantly increases compared with that of a Nb single layer film as the thickness of the constituent Nb, V, and Ta layers becomes thin. In the case of the superlattice [Nb/V/Ta](n), the H-c2 perpendicular to is basically governed by the orbital pair-breaking effect rather than Pauli pair-breaking effect and increases only when the crystalline size of the superlattice decreases by the insertion of V layers. Thus, we conclude that the shortening of the coherence length of Cooper pairs due to the crystalline disorder predominantly contributes to the increase of the H-c2 perpendicular to in the superlattice [NbN/Ta](n). (C) 2021 The Japan Society of Applied Physics