Anisotropic collapse of electronic correlations in the ferromagnet UGe2 under high magnetic field
Abstract
We present electrical-resistivity measurements on the prototypical heavy-fermion ferromagnet UGe2 under pulsed magnetic field up to 60~T. An anisotropic field-induced suppression of the electronic correlations is revealed. The electrical resistivity strongly decreases when a magnetic field H is applied along the easy magnetic axis a, while it remains almost unchanged when H is applied along the hard magnetic axes b and c. The field-induced destabilization of the ferromagnetic state is also anisotropic: the anomaly at the Curie temperature TC disappears in fields higher than 1~T for Ha and in fields higher than 20~T for Hb,c. At temperatures below 2~K, we observe quantum oscillations in fields larger than 50~T applied along b, which support the presence of a two-dimensional Fermi surface similar to that previously observed at low fields.
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