Add to ORKGIn this letter we report the results of entropy variations in random anisotropy magnets composed of TbxY1−xAl2, with x=0.15, 0.20, 0.25, 0.35, 0.40, and 0.50. We discovered large entropy variation associated with the spin glass to paramagnetictransition. Both temperature transition and entropy changes were studied at different temperatures and with different compositions. Our conclusion is that these materials are suitable candidates for use as magnetic refrigerants in a temperature range below 40 K
Magnetic cooling is a highly efficient refrigeration technique with the potential to replace the tra...
We report on the barocaloric and magnetocaloric effects in a series of low-hysteresis Ni-Mn-In magne...
The demand for an effective and environmentally friendly cooling technique is prompting the search f...
In this letter we report the results of entropy variations in random anisotropy magnets composed of ...
Abstract. The magnetocaloric properties of three different temperature-s nsitive magnetic fluids wer...
The anisotropy of the magnetocaloric effect was studied on DyNiAl single crystal. Our data reveal a ...
The present work is aimed at characterizing the magnetocaloric effect (MCE), including the isotherma...
The Tb60Ni30Al10 amorphous alloy was prepared by melt-spinning in the form of ribbons. Its magnetic ...
Climate change and the increasing demand for energy globally have motivated the search for a more su...
An accurate calculation of the different magnetocaloric-related magnitudes derived from the temperat...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
This work presents study of magnetocaloric properties of compounds exhibiting unusual magnetic chara...
We present a comparison of the rotating magnetocaloric effect R MCE carried out on TmB4, a strongl...
The energy-efficient and environmentally friendly alternative cooling technology based on the magnet...
Room-temperature magnetic-entropy changes in nanostructures for magnetic refrigeration are investiga...
Magnetic cooling is a highly efficient refrigeration technique with the potential to replace the tra...
We report on the barocaloric and magnetocaloric effects in a series of low-hysteresis Ni-Mn-In magne...
The demand for an effective and environmentally friendly cooling technique is prompting the search f...
In this letter we report the results of entropy variations in random anisotropy magnets composed of ...
Abstract. The magnetocaloric properties of three different temperature-s nsitive magnetic fluids wer...
The anisotropy of the magnetocaloric effect was studied on DyNiAl single crystal. Our data reveal a ...
The present work is aimed at characterizing the magnetocaloric effect (MCE), including the isotherma...
The Tb60Ni30Al10 amorphous alloy was prepared by melt-spinning in the form of ribbons. Its magnetic ...
Climate change and the increasing demand for energy globally have motivated the search for a more su...
An accurate calculation of the different magnetocaloric-related magnitudes derived from the temperat...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
This work presents study of magnetocaloric properties of compounds exhibiting unusual magnetic chara...
We present a comparison of the rotating magnetocaloric effect R MCE carried out on TmB4, a strongl...
The energy-efficient and environmentally friendly alternative cooling technology based on the magnet...
Room-temperature magnetic-entropy changes in nanostructures for magnetic refrigeration are investiga...
Magnetic cooling is a highly efficient refrigeration technique with the potential to replace the tra...
We report on the barocaloric and magnetocaloric effects in a series of low-hysteresis Ni-Mn-In magne...
The demand for an effective and environmentally friendly cooling technique is prompting the search f...