Abstract
For conventional superconductors, superconductivity is destabilized by magnetic field. However, in BETS-based two dimensional organic conductors, where BETS is bis(ethylenedithio)tetraselenafulvalene, superconductivity is induced by high magnetic fields parallel to the conducting layers. The overall features of the field-induced superconductivity are well understood in terms of Jaccarino–Peter compensation mechanism, where the magnetic interaction between the conduction electrons on the BETS molecules and the localized magnetic moments in the insulating layers plays a crucial role. The experimental results of the field induced superconductivity observed in the BETS systems and the theoretical model are reviewed.
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