مرکز منطقه ای اطلاع رساني علوم و فناوري - Critical current behavior and oxide barrier properties of Ta surface layers on Nb

DocumentCode :

1009318

Title :

Critical current behavior and oxide barrier properties of Ta surface layers on Nb

Author :

Ruggiero, S.T. ; Arnold, G.B. ; Track, E. ; Prober, D.E.

Author_Institution :

Yale University, New Haven, CT

Volume :

Issue :

fYear :

1985

fDate :

3/1/1985 12:00:00 AM

Firstpage :

850

Lastpage :

853

Abstract :

We have investigated the critical current, IcR, and oxide barrier shape in Nb/Ta/Ox/C.E. tunnel junctions. Here, layers of Ta in the thickness range O<DTa<1000Å were deposited, in situ, on 2000Å thick Nb underlayers. Junctions were completed with Pb, PbBi, and Ag counter-electrodes. We find that as DTais increased, there is a more rapid decrease of IcR compared with the effective energy gap, in accord with an extended version of the Gallagher theory including strong-coupling and electron-scattering effects. In addition, we have investigated the average barrier height, $\\bar{\\phi}$ , and width, s, of the oxide barriers which form on the Ta overlayers. It is observed empirically that $\\bar{\\phi} \\sim 6/(s-s_{o})$ where $s_{o} \\sim10$ Å and φ is measured in eV. This relationship is also found to hold for barrier formation on a wide variety of pure and composite metallic systems. These results are discussed in conjunction with the Fromhold-Mott-Cabrera theory for self-limiting oxide growth on metal surfaces.