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IIR document
DRREAM: reducing rare earth use in magnetocaloric applications.
Laser Cooling and Trapping of Rare-Earth-Doped Particles.
A magnetic refrigeration prototype operating with a rare-earth-free magnetic field source.
Large magnetocaloric effect near water boiling point in rare-earth based intermetallics.
Features of magnetocaloric effect in rare-earth based R(Co-Fe)2 laves phases, with R = Ho, Er.
A comparison between rare earth and transition metals working as magnetic materials in an AMR refrigerator in the room temperature range.
Ti substitution in MnBi rare-earth-free magnetocaloric compound.
Magnetovolumic and magnetocaloric properties of Y1-xRxFe2(H,D)4.2 compounds.
On the rotating magnetocaloric effect in multiferroic RMn2O5 compounds.
Magnetocaloric effect in severe plastic deformed Gd-X (X=In, Ga, B, Y, Zr).
Magnetocaloric effect in Gd(1-y)DyyAl2.
Evaluation of rare-earth-based coated conductors: mechanical, delamination and in-field critical current properties.
[In Japanese. / En japonais.]
Nouveaux matériaux magnétocaloriques à base de terres rares pour la réfrigération magnétique.
New magnetocaloric materials based on rare earths for magnetic refrigeration.
Magnetocaloric effect in rare earth-Co-based systems: effects of spin fluctuations.
Basic mechanism of thermal runaway for REBCO coils.