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Absence of Meissner State and Robust Ferromagnetism in the Superconducting State of UCoGe: Possible Evidence of Spontaneous Vortex State

We report ac magnetic susceptibility and dc magnetization measurements on the superconducting ferromagnet UCoGe (with superconducting and Curie temperatures of $T_{\rm SC} \sim 0.5$~K and $T_{\rm Curie} \sim 2.5$~K, respectively). In the normal, ferromagnetic state ($T_{\rm SC} < T < T_{\rm Curie}$), the magnetization curve exhibits a hysteresis loop similar to that of a regular itinerant ferromagnet. Upon lowering the temperature below $T_{\rm SC}$, the spontaneous magnetization is unchanged, but the hysteresis is markedly enhanced. Even deeply inside the superconducting state, ferromagnetism is not completely shielded, and there is no Meissner region, a magnetic field region of $H < H_{\rm c1}$ (a lower critical field). From these results, we suggest that UCoGe is the first material in which ferromagnetism robustly survives in the superconducting state and a spontaneous vortex state without the Meissner state is realized.

preprint2010arXivOpen access
Kazuhiko DeguchiEisuke OsakiSeiko BanNobuyuki TamuraYasuyuki SimuraToshiro SakakibaraIsamu SatohNoriaki K. Sato
cond-mat.supr-concond-mat.str-elcond-mat.mtrl-sci
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Kazuhiko DeguchiEisuke OsakiSeiko BanNobuyuki TamuraYasuyuki SimuraToshiro SakakibaraIsamu SatohNoriaki K. Sato

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