1995
DOI: 10.1016/0925-8388(94)01375-6
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Electrical resistivity and magnetic phase transitions in modified FeRh compounds

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Cited by 104 publications
(101 citation statements)
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“…The transition temperature is suppressed under the application of external magnetic field because of the reduction of the free energy of the FM phase [19]. This transition temperature suppression by an external field enables the derivation of some thermodynamic parameters from magnetization measurements [20], [21], which gives consistent results with thermal measurements [2], [7].…”
Section: Introductionsupporting
confidence: 63%
“…The transition temperature is suppressed under the application of external magnetic field because of the reduction of the free energy of the FM phase [19]. This transition temperature suppression by an external field enables the derivation of some thermodynamic parameters from magnetization measurements [20], [21], which gives consistent results with thermal measurements [2], [7].…”
Section: Introductionsupporting
confidence: 63%
“…The crux of these features of this CsCl-structured material is the first order transition from an antiferromagnetic (AFM) to ferromagnetic (FM) state when the temperature is increased above T m = 320 K [1,2]. In this context the drop of the electrical resistivity that is observed across the metamagnetic transition is of central interest.…”
Section: Pacs Numbers: Valid Pacs Appear Herementioning
confidence: 99%
“…In this context the drop of the electrical resistivity that is observed across the metamagnetic transition is of central interest. Furthermore, if the AFM to FM transition is induced by an applied magnetic field, a pronounced magnetoresistance (MR) effect is found experimentally with a measured MR ratio ∼ 50% at room temperature [2][3][4]. The temperature of the metamagnetic transition as well as the MR ratio can be tuned by addition of small amounts of impurities [2,[5][6][7][8].…”
mentioning
confidence: 95%
“…Fe and Rh will form alloys at any composition, however a B2-ordered compound is the equilibrium state for stoichiometries in the near-equiatomic range 49-53% atomic Fe 17,18 , a large entropy release 19 , a large drop in the resistivity 14 , and a large increase in the carrier concentration 20 . Neutron diffraction 21,16 and more recently XMCD measurements 22 , and is suppressed by ~8 K/T of applied magnetic field 25,15 . This rich array of physical behavior depends critically on achieving the proper B2-ordered structure and so permits a wide variety of measurement techniques to be deployed to detect proper chemical ordering in a specimen, making it a convenient example to demonstrate a method of growing high-quality ordered alloy epilayers.…”
mentioning
confidence: 99%