For molecular nanomagnets, excesses of magnetic entropy at finite low temperatures are induced by degrees of freedom resulting from macroscopic degeneracies of the molecular spin states. We experimentally demonstrate that this effect can be huge and efficiently exploited for enhancing the magnetic field dependence of the adiabatic temperature change. We specifically consider the Mn(32) molecular nanomagnet, proving it to be an excellent magnetic refrigerant below T approximate to 2 K, due almost entirely to its spin degeneracy.
Magnetocaloric effect in spin-degenerated molecular nanomagnets
Evangelisti M;Candini A;Affronte M;
2009
Abstract
For molecular nanomagnets, excesses of magnetic entropy at finite low temperatures are induced by degrees of freedom resulting from macroscopic degeneracies of the molecular spin states. We experimentally demonstrate that this effect can be huge and efficiently exploited for enhancing the magnetic field dependence of the adiabatic temperature change. We specifically consider the Mn(32) molecular nanomagnet, proving it to be an excellent magnetic refrigerant below T approximate to 2 K, due almost entirely to its spin degeneracy.File in questo prodotto:
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