F. C. G. Gandra scite author profile

To present day, the maximum magnetocaloric effect (MCE) at room temperature for a magnetic field change of 5 T is 40 J/(kg K) for MnAs. In this Letter we present colossal MCE measurements on MnAs under pressure, reaching values up to 267 J/(kg K), far greater than the magnetic limit arising from the assumption of magnetic field independence of the lattice and electronic entropy contributions. The origin of the effect is the contribution to the entropy variation coming from the lattice through the magnetoelastic coupling.

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Ambient pressure colossal magnetocaloric effect tuned by composition in Mn1−xFexAs

Campos

et al. 2006

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The magnetocaloric effect (MCE) is the basis for magnetic refrigeration, and can replace conventional gas compression technology due to its superior efficiency and environment friendliness. MCE materials must exhibit a large temperature variation in response to an adiabatic magnetic-field variation and a large isothermal entropic effect is also expected. In this respect, MnAs shows the colossal MCE, but the effect appears under high pressures. In this work, we report on the properties of Mn(1-x)Fe(x)As that exhibit the colossal effect at ambient pressure. The MCE peak varies from 285 K to 310 K depending on the Fe concentration. Although a large thermal hysteresis is observed, the colossal effect at ambient pressure brings layered magnetic regenerators with huge refrigerating power closer to practical applications around room temperature.

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Magnetocaloric effect in theRNi5(R=Pr, Nd, Gd, Tb, Dy, Ho, Er) series

et al. 2004

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In this paper, the magnetocaloric effect in the hexagonal intermetallic compounds belonging to the RNi 5 series was calculated using a Hamiltonian including the crystalline electrical field, exchange interaction, and the Zeeman effect. Experimental work was performed and the two thermodynamics quantities, namely, isothermal entropy change and adiabatic temperature change were obtained for polycrystalline samples, using heat capacity measurements, and compared to the theoretical predictions.

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Ambient pressure colossal magnetocaloric effect in Mn1−xCuxAs compounds

Rocco

Campos

Carvalho

et al. 2007

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Magnetic refrigeration is a good alternative to gas compression technology due to higher efficiency and environmental concerns. Magnetocaloric materials must exhibit large adiabatic temperature variations and a large entropic effect. MnAs shows the colossal magnetocaloric effect under high pressures or with Fe doping. In this work the authors introduce a class of materials—Mn1−xCuxAs—revealing a peak colossal effect of −175J∕(Kkg) for a 5T field variation at 318K and ambient pressure.

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Theoretical description of the colossal entropic magnetocaloric effect: Application to MnAs

et al. 2006

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We report on the theoretical investigations into the recently discovered colossal entropy change in MnAs under magnetic-field change in an isothermal process. The phenomenological model takes into account the exchange-Zeeman interactions, magnetoelastic interactions, the external pressure effect, and the magnetic-field dependence of the lattice entropy. The results show the fundamental role of the lattice entropy in the colossal entropy change for the MnAs compound. The best model parameters and their variation with pressure were determined.

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F. C. G. Gandra

Pressure-Induced Colossal Magnetocaloric Effect in MnAs

Ambient pressure colossal magnetocaloric effect tuned by composition in Mn1−xFexAs

Magnetocaloric effect in theRNi5(R=Pr, Nd, Gd, Tb, Dy, Ho, Er) series

Ambient pressure colossal magnetocaloric effect in Mn1−xCuxAs compounds

Theoretical description of the colossal entropic magnetocaloric effect: Application to MnAs

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