Title
Resistance vs Temperature of an Indium Oxide thin film sample "6.7E-5" at a range of magnetic fields
Published Date
2019-01-09
Authors
Group
Goldman Group
University of Minnesota Condensed Matter Group
Author Contact
Goldman, Allen M (goldman@umn.edu)
Type
Dataset
Experimental Data
Abstract
Sheet resistance of a thin superconducting amorphous indium oxide film as a function of temperature and perpendicular magnetic field. Increasing field leads to the apparent destruction of the superconducting state and a transition to a insulator-like high field state.
Description
DC sheet resistance of a thin amorphous indium oxide film, measured as a function of temperature at a range of magnetic fields to show a transition from a superconducting state to an insulator-like state. Each file gives sheet resistance as a function of temperature at a unique value of magnetic field applied perpendicular to the film.
Funding information
Sponsorship:
This work was supported by the Condensed Matter Physics Program of the National Science Foundation under grant DMR-12663316; Part of this work was carried out at the University of Minnesota Characterization Facility, a member of the NSF-funded Materials Research Facilities Network via the MRSEC program (DMR-140013), and the Nanofabrication Center which receives partial support from the NSF through the NNIN program.
Referenced by
Percher, Ilana M., Volotsenko, I., Frydman, A., Shklovskii, B. I. & Goldman, A. M. Vortex variable range hopping in a conventional superconducting film. Phys. Rev. B 96, 224511 (2017).
Percher, Ilana. (2018). 2D Mott Hopping of Vortices in an Amorphous Indium Oxide Film. Retrieved from the University of Minnesota Digital Conservancy Dissertations Collection.
License
CC0 1.0 Universal Public Domain Dedication
Suggested Citation
Percher, Ilana M; Goldman, Allen M.
(2019). Resistance vs Temperature of an Indium Oxide thin film sample "6.7E-5" at a range of magnetic fields.
Retrieved from the Data Repository for the University of Minnesota,
https://doi.org/10.13020/cbew-4g28.