Magnetic and magnetocaloric properties of Dy5Pd2: role of magnetic irreversibility

In this report the magnetic behavior and magnetocaloric response of the intermetallic compound Dy 5 Pd 2 has been investigated from detailed magnetization measurements. Magnetic cluster glass behavior has been observed in the crystalline Dy 5 Pd 2 compound below 38 K. Magnetocaloric entropy changes...

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Published in	RSC advances Vol. 5; no. 59; pp. 4786 - 47865
Main Authors	Paramanik, Tapas, Samanta, Tapas, Ranganathan, R, Das, I
Format	Journal Article
Language	English
Published	01.01.2015
Subjects	Crystal structure Entropy Inverse Isotherms Magnetic fields Magnetic properties Magnetization Temperature dependence
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Abstract	In this report the magnetic behavior and magnetocaloric response of the intermetallic compound Dy 5 Pd 2 has been investigated from detailed magnetization measurements. Magnetic cluster glass behavior has been observed in the crystalline Dy 5 Pd 2 compound below 38 K. Magnetocaloric entropy changes evaluated using Maxwell's relation (MXR) from zero-field-cooled magnetization isotherms, which is used mostly in the literature, shows a giant inverse magnetocaloric effect (MCE) below 20 K and a large conventional MCE around 60 K in this compound. The observed value of inverse MCE is ∼29 J kg −1 K −1 for 50 kOe external magnetic field change at T = 3.5 K. In this context, the origin of the giant inverse MCE and its temperature dependence has been studied. The applicability of MXR and procedure to obtain reversible MCE using MXR which is important for practical application has been discussed. Dy 5 Pd 2 exhibits a reversible MCE with a peak value of magnetic entropy change (Δ S max M ) 8.3 J kg −1 K −1 at 60 K under a magnetic field of 50 kOe and an irreversible inverse MCE below 20 K. In this report the origin of giant inverse magnetocaloric effect at low temperature region has been studied in cluster glass intermetallic compound Dy 5 Pd 2 . In this context the procedure to obtain reversible magnetocaloric effect using Maxwell's relation has been described.
AbstractList	In this report the magnetic behavior and magnetocaloric response of the intermetallic compound Dy5Pd2 has been investigated from detailed magnetization measurements. Magnetic cluster glass behavior has been observed in the crystalline Dy5Pd2 compound below 38 K. Magnetocaloric entropy changes evaluated using Maxwell's relation (MXR) from zero-field-cooled magnetization isotherms, which is used mostly in the literature, shows a giant inverse magnetocaloric effect (MCE) below 20 K and a large conventional MCE around 60 K in this compound. The observed value of inverse MCE is similar to 29 J kg-1 K-1 for 50 kOe external magnetic field change at T = 3.5 K. In this context, the origin of the giant inverse MCE and its temperature dependence has been studied. The applicability of MXR and procedure to obtain reversible MCE using MXR which is important for practical application has been discussed. Dy5Pd2 exhibits a reversible MCE with a peak value of magnetic entropy change ( Delta S super(max) sub(M)) 8.3 J kg-1 K-1 at 60 K under a magnetic field of 50 kOe and an irreversible inverse MCE below 20 K. In this report the magnetic behavior and magnetocaloric response of the intermetallic compound Dy 5 Pd 2 has been investigated from detailed magnetization measurements. Magnetic cluster glass behavior has been observed in the crystalline Dy 5 Pd 2 compound below 38 K. Magnetocaloric entropy changes evaluated using Maxwell's relation (MXR) from zero-field-cooled magnetization isotherms, which is used mostly in the literature, shows a giant inverse magnetocaloric effect (MCE) below 20 K and a large conventional MCE around 60 K in this compound. The observed value of inverse MCE is ∼29 J kg −1 K −1 for 50 kOe external magnetic field change at T = 3.5 K. In this context, the origin of the giant inverse MCE and its temperature dependence has been studied. The applicability of MXR and procedure to obtain reversible MCE using MXR which is important for practical application has been discussed. Dy 5 Pd 2 exhibits a reversible MCE with a peak value of magnetic entropy change (Δ S max M ) 8.3 J kg −1 K −1 at 60 K under a magnetic field of 50 kOe and an irreversible inverse MCE below 20 K. In this report the origin of giant inverse magnetocaloric effect at low temperature region has been studied in cluster glass intermetallic compound Dy 5 Pd 2 . In this context the procedure to obtain reversible magnetocaloric effect using Maxwell's relation has been described.
Author	Paramanik, Tapas Das, I Ranganathan, R Samanta, Tapas
AuthorAffiliation	Department of Physics and Astronomy Louisiana State University Saha Institute of Nuclear Physics
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SubjectTerms	Crystal structure Entropy Inverse Isotherms Magnetic fields Magnetic properties Magnetization Temperature dependence
Title	Magnetic and magnetocaloric properties of Dy5Pd2: role of magnetic irreversibility
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