Electric Field induced Superconductivity in Multigraphene. Ballestar, A., Barzola-Quiquia, J., Dusari, S., da Silva, P., E., R., R., & Kopelevich, Y. 2, 2012.
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Paper abstract bibtex
Paper abstract bibtex We have studied the temperature and magnetic field dependence of the electrical resistance of mesoscopic, tens of nanometers thick multigraphene samples as a function of a bias voltage applied perpendicular to the graphene planes. We found that the resistance changes asymmetrically with the bias voltage sign. For large and negative bias voltages the resistance shows a non-percolative superconducting-like transition at $T \sim 15 ... 20 $K. A large enough magnetic field suppresses the transition.
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abstract = {We have studied the temperature and magnetic field dependence of the electrical resistance of mesoscopic, tens of nanometers thick multigraphene samples as a function of a bias voltage applied perpendicular to the graphene planes. We found that the resistance changes asymmetrically with the bias voltage sign. For large and negative bias voltages the resistance shows a non-percolative superconducting-like transition at $T \sim 15 ... 20 $K. A large enough magnetic field suppresses the transition.},
bibtype = {article},
author = {Ballestar, A. and Barzola-Quiquia, J. and Dusari, S. and da Silva, P. Esquinazi R. R. and Kopelevich, Y.}
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