Argonne National Laboratory / Taylor & Francis Ltd. / American Chemical Society Petroleum Research Fund / Hitachi / /
Country
United States / Columbia / /
Currency
pence / USD / / /
Facility
University of South Carolina Research / University of South Carolina / University of Illinois / / /
IndustryTerm
superconductor energy / vortex energy / nominal chemical composition / energy dissipation / energy resulting / magnetic vortex energy / metal oxide nanoparticles / Local energy dispersive x-ray spectroscopy / localized energy dispersive x-ray analysis / condensation energy / quantum interference device / condensation energy pinning / magnetic energy / energy / conducted using a Quantum Design superconducting quantum interference device / /
Organization
University of Illinois / University of South Carolina / National Science Foundation / South Carolina Research and Productive Scholarship Fund / Center for Microanalysis of Materials / /
Person
A. Snezhko / K. S. Suslick / Van Bael / K. Temst / V / N. A. Dhas / G. Kataby / Tanya Prozorov / J. Van Bael / R. Prozorov / I. Felner / B. Ivlev / V / T. Prozorov / Cai / M. Baert / V / Y. Koltypin / A. Gedanken / Alexey Snezhko / S. J. Doctycz / X. Cao / M. V. Fegelman / V / /
PHYSICAL REVIEW B 71, 024527 共2005兲 Magnetic nanoparticles as efficient bulk pinning centers in type-II superconductors Alexey Snezhko,1,* Tanya Prozorov,1,2 and Ruslan Prozorov1,† 1Department