Thermal expansion of alkaline-doped lanthanum ferrite near the néel temperature

Geoffrey L. Beausoleil; Patrick Price; David Thomsen; Alex Punnoose; Rick Ubic; Scott Misture; Darryl P. Butt

doi:10.1111/jace.12625

Thermal expansion of alkaline-doped lanthanum ferrite near the néel temperature

Geoffrey L. Beausoleil, Patrick Price, David Thomsen, Alex Punnoose, Rick Ubic, Scott Misture, Darryl P. Butt

Micron School of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

The thermal expansion and magnetic behaviors of divalent, alkaline-doped lanthanum ferrites (La0.9M0.1FeO3, M=Ca, Sr, Ba) were assessed using a combination of dilatometry, magnetometry, time-of-flight neutron diffraction, and hightemperature X-ray diffraction. Néel temperatures were determined through vibrating sample magnetometry and correlated well with changes in thermal expansion behavior observed during both dilatometry and X-ray diffraction. The Ńeel temperatures observed for pure, Ca-doped, Sr-doped, and Badoped lanthanum ferrites were 471°C, 351°C, 465°C, and 466°C, respectively. The effect of divalent substitutions on the magnetic behavior are attributed to charge compensation mechanisms and structural changes in the material.

Original language	English
Pages (from-to)	228-234
Number of pages	7
Journal	Journal of the American Ceramic Society
Volume	97
Issue number	1
DOIs	https://doi.org/10.1111/jace.12625
State	Published - Jan 2014

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abstract = "The thermal expansion and magnetic behaviors of divalent, alkaline-doped lanthanum ferrites (La0.9M0.1FeO3, M=Ca, Sr, Ba) were assessed using a combination of dilatometry, magnetometry, time-of-flight neutron diffraction, and hightemperature X-ray diffraction. N{\'e}el temperatures were determined through vibrating sample magnetometry and correlated well with changes in thermal expansion behavior observed during both dilatometry and X-ray diffraction. The {\'N}eel temperatures observed for pure, Ca-doped, Sr-doped, and Badoped lanthanum ferrites were 471°C, 351°C, 465°C, and 466°C, respectively. The effect of divalent substitutions on the magnetic behavior are attributed to charge compensation mechanisms and structural changes in the material.",

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AU - Beausoleil, Geoffrey L.

AU - Price, Patrick

AU - Thomsen, David

AU - Punnoose, Alex

AU - Ubic, Rick

AU - Misture, Scott

AU - Butt, Darryl P.

PY - 2014/1

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N2 - The thermal expansion and magnetic behaviors of divalent, alkaline-doped lanthanum ferrites (La0.9M0.1FeO3, M=Ca, Sr, Ba) were assessed using a combination of dilatometry, magnetometry, time-of-flight neutron diffraction, and hightemperature X-ray diffraction. Néel temperatures were determined through vibrating sample magnetometry and correlated well with changes in thermal expansion behavior observed during both dilatometry and X-ray diffraction. The Ńeel temperatures observed for pure, Ca-doped, Sr-doped, and Badoped lanthanum ferrites were 471°C, 351°C, 465°C, and 466°C, respectively. The effect of divalent substitutions on the magnetic behavior are attributed to charge compensation mechanisms and structural changes in the material.

AB - The thermal expansion and magnetic behaviors of divalent, alkaline-doped lanthanum ferrites (La0.9M0.1FeO3, M=Ca, Sr, Ba) were assessed using a combination of dilatometry, magnetometry, time-of-flight neutron diffraction, and hightemperature X-ray diffraction. Néel temperatures were determined through vibrating sample magnetometry and correlated well with changes in thermal expansion behavior observed during both dilatometry and X-ray diffraction. The Ńeel temperatures observed for pure, Ca-doped, Sr-doped, and Badoped lanthanum ferrites were 471°C, 351°C, 465°C, and 466°C, respectively. The effect of divalent substitutions on the magnetic behavior are attributed to charge compensation mechanisms and structural changes in the material.

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Thermal expansion of alkaline-doped lanthanum ferrite near the néel temperature

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