Magnetism in Gd-W films

Vapor condensation techniques are useful to prepare magnetic alloys whose components have low or even negligible equilibrium mutual solubility. In this work, one of these techniques-sputtering-was used to obtain Gd x W 1 − x alloys whose magnetic properties were investigated as a function of the Gd...

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Veröffentlicht in:	Journal of applied physics 2008-05, Vol.103 (9), p.093916-093916-3
Hauptverfasser:	Gadioli, Giovana Z., Rouxinol, Francisco P., Gelamo, Rogério V., dos Santos, Adenilson O., Cardoso, Lisandro P., Bica de Moraes, Mário A.
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Sprache:	eng
Schlagworte:	ADIABATIC DEMAGNETIZATION CHEMICAL ANALYSIS DEPOSITION ENTROPY FERROMAGNETIC MATERIALS FREEZING GADOLINIUM GADOLINIUM ALLOYS ISOTHERMS MAGNETIC PROPERTIES MAGNETIZATION MATERIALS SCIENCE PARAMAGNETISM REFRIGERATION SPIN GLASS STATE SPUTTERING TEMPERATURE DEPENDENCE THIN FILMS TUNGSTEN ALLOYS VAPOR CONDENSATION X-RAY DIFFRACTION
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container_end_page	093916-3
container_issue	9
container_start_page	093916
container_title	Journal of applied physics
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creator	Gadioli, Giovana Z. Rouxinol, Francisco P. Gelamo, Rogério V. dos Santos, Adenilson O. Cardoso, Lisandro P. Bica de Moraes, Mário A.
description	Vapor condensation techniques are useful to prepare magnetic alloys whose components have low or even negligible equilibrium mutual solubility. In this work, one of these techniques-sputtering-was used to obtain Gd x W 1 − x alloys whose magnetic properties were investigated as a function of the Gd atomic concentration x . Gadolinium and various Gd-based alloys are promising materials for magnetic refrigeration and this was one of the motivations for this study. The Gd x - W 1 − x films were sputter deposited from Gd and W targets with x ranging from 0 to 1 as determined by x-ray energy-dispersive spectroscopic analyses. X-ray diffraction patterns indicate that crystalline structures were formed at low and high Gd concentrations, while at intermediate concentrations, the films were amorphous. Magnetization measurements, performed as a function of temperature and with static and alternating applied fields, reveal a spin glasslike behavior in all the W-containing samples for temperatures below the freezing temperature T f . For low and intermediate Gd concentrations, and for T > T f , the films were paramagnetic, while a ferromagnetic phase was observed in the Gd-W alloy of the highest Gd content. The magnetocaloric effect was investigated from the magnetization isotherms M versus H , from which the isothermal magnetic entropy variation Δ S M as a function of T , for the removal of an applied field of 50 kOe , was determined. It was observed that the maximum value of Δ S M for each Δ S M versus T curve and the temperature at which these maxima occur, are strongly dependent on x .
doi_str_mv	10.1063/1.2838462
format	Article
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In this work, one of these techniques-sputtering-was used to obtain Gd x W 1 − x alloys whose magnetic properties were investigated as a function of the Gd atomic concentration x . Gadolinium and various Gd-based alloys are promising materials for magnetic refrigeration and this was one of the motivations for this study. The Gd x - W 1 − x films were sputter deposited from Gd and W targets with x ranging from 0 to 1 as determined by x-ray energy-dispersive spectroscopic analyses. X-ray diffraction patterns indicate that crystalline structures were formed at low and high Gd concentrations, while at intermediate concentrations, the films were amorphous. Magnetization measurements, performed as a function of temperature and with static and alternating applied fields, reveal a spin glasslike behavior in all the W-containing samples for temperatures below the freezing temperature T f . For low and intermediate Gd concentrations, and for T > T f , the films were paramagnetic, while a ferromagnetic phase was observed in the Gd-W alloy of the highest Gd content. The magnetocaloric effect was investigated from the magnetization isotherms M versus H , from which the isothermal magnetic entropy variation Δ S M as a function of T , for the removal of an applied field of 50 kOe , was determined. 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In this work, one of these techniques-sputtering-was used to obtain Gd x W 1 − x alloys whose magnetic properties were investigated as a function of the Gd atomic concentration x . Gadolinium and various Gd-based alloys are promising materials for magnetic refrigeration and this was one of the motivations for this study. The Gd x - W 1 − x films were sputter deposited from Gd and W targets with x ranging from 0 to 1 as determined by x-ray energy-dispersive spectroscopic analyses. X-ray diffraction patterns indicate that crystalline structures were formed at low and high Gd concentrations, while at intermediate concentrations, the films were amorphous. Magnetization measurements, performed as a function of temperature and with static and alternating applied fields, reveal a spin glasslike behavior in all the W-containing samples for temperatures below the freezing temperature T f . For low and intermediate Gd concentrations, and for T > T f , the films were paramagnetic, while a ferromagnetic phase was observed in the Gd-W alloy of the highest Gd content. The magnetocaloric effect was investigated from the magnetization isotherms M versus H , from which the isothermal magnetic entropy variation Δ S M as a function of T , for the removal of an applied field of 50 kOe , was determined. 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For low and intermediate Gd concentrations, and for T > T f , the films were paramagnetic, while a ferromagnetic phase was observed in the Gd-W alloy of the highest Gd content. The magnetocaloric effect was investigated from the magnetization isotherms M versus H , from which the isothermal magnetic entropy variation Δ S M as a function of T , for the removal of an applied field of 50 kOe , was determined. It was observed that the maximum value of Δ S M for each Δ S M versus T curve and the temperature at which these maxima occur, are strongly dependent on x .</abstract><cop>United States</cop><pub>American Institute of Physics</pub><doi>10.1063/1.2838462</doi><oa>free_for_read</oa></addata></record>
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subjects	ADIABATIC DEMAGNETIZATION CHEMICAL ANALYSIS DEPOSITION ENTROPY FERROMAGNETIC MATERIALS FREEZING GADOLINIUM GADOLINIUM ALLOYS ISOTHERMS MAGNETIC PROPERTIES MAGNETIZATION MATERIALS SCIENCE PARAMAGNETISM REFRIGERATION SPIN GLASS STATE SPUTTERING TEMPERATURE DEPENDENCE THIN FILMS TUNGSTEN ALLOYS VAPOR CONDENSATION X-RAY DIFFRACTION
title	Magnetism in Gd-W films
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