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Giant magnetocaloric effect for (Mn, Fe, V)2(P, Si) alloys with low hysteresis
- 2(P,Si) system">2(P,Si) system">
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Magnetocaloric effect in the (Mn,Fe)2(P,Si) system: From bulk to nano
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Étude des performances du cycle frigorifique régénératif de Brayton utilisant un nouveau matériau composite Mn-Fe-P-Si avec hystérésis thermique comme milieu de travail
- 1-xVxFe0.95(P,Si,B) Compounds">1-xVxFe0.95(P,Si,B) Compounds">
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Ultra-low Hysteresis in Giant Magnetocaloric Mn1-xVxFe0.95(P,Si,B) Compounds
- 2(P,Si) alloys to low magnetic field applications">2(P,Si) alloys to low magnetic field applications">
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Tuning the magneto-elastic transition of (Mn,Fe,V)2(P,Si) alloys to low magnetic field applications
- 1.2-xVxFe0.75P0.5Si0.5 alloys">1.2-xVxFe0.75P0.5Si0.5 alloys">
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Combined effect of annealing temperature and vanadium substitution for mangetocaloric Mn1.2-xVxFe0.75P0.5Si0.5 alloys
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Reversible low-field magnetocaloric effect in Ni-Mn-In-based Heusler alloys
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Positive muon spin rotation and relaxation measurements on the ferromagnetic superconductor UGe2 at ambient and high pressure
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