Substrate dependent proximity effect of niobium film

Danho Ahn; Won-Jun Jang; Chanyoung Lim; Dojun Yum; Jhinhwan Lee; Yannis Semertzdis

Substrate dependent proximity effect of niobium film

POSTER

Abstract

Proximity effect between superconductor (SC) and normal metal (NM) is manifested as the diminished superconductivity in SC film by NM substrate. We have studied the magnetron-sputtered and post-annealed niobium film on two different substrates, stainless steel 316 and OFHC copper ($\rho _{\mathrm{SUS}}$/$\rho_{\mathrm{Cu}}\sim $10$^{\mathrm{2}})$. The research shows that a larger conductivity in NM substrate results in a more strongly suppressed superconductivity of the deposited film. We will also show comparison of other characteristics of the SC films related to the superconductivity with analysis techniques such as AFM (atomic force microscopy), SEM (scanning electron microscopy), XPS (x-ray photoelectron spectroscopy), PPMS (physical property measurement system) and MPMS (magnetic property measurement system).

Authors

Danho Ahn
- Department of physics, Korea advanced institute of science and technology, Daejeon, Korea.
Won-Jun Jang
- Center for Axion and Precision Physics, Institute of Basic Science, Daejeon 34141, Korea
- Center for axion and precision physics research center, Institute for Basic science, Daejeon, Korea
Chanyoung Lim
- Department of physics, Korea advanced institute of science and technology, Daejeon, Korea.
Dojun Yum
- Department of physics, Korea advanced institute of science and technology, Daejeon, Korea
Jhinhwan Lee
- Department of physics, Korea advanced institute of science and technology, Daejeon, Korea.
- KAIST
Yannis Semertzdis
- Center for axion and precision physics research center, Institute for Basic science, Daejeon, Korea