1999
DOI: 10.1103/physrevb.59.1113
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Structural and magnetic phase transitions in shape-memory alloysNi2+xMn1x

Abstract: The Heusler-type alloy Ni 2ϩx Mn 1Ϫx Ga exhibits well defined shape memory properties in a ferromagnetic state, which means that the martensitic transition temperature is lower than the Curie point of this material. The change of composition makes these characteristic temperatures approach each other. To study this behavior, the measurements of specific heat, ac magnetic susceptibility, and dc resistivity were performed. The phase diagram of the cubic ferromagnet describing possible structural and magnetic tra… Show more

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Cited by 424 publications
(241 citation statements)
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“…It is clear that a decrease of about 46 K is driven by an external magnetic field of 5 T. The equated driving rate of T M is ∼ 9.2 K/T, one time higher than that of Ni 45 Co 5 Mn 36.6 In 13.4 reported in Ref. [47].…”
Section: Magnetocaloric Effect and Magnetoresistance In Codoped Metammentioning
confidence: 63%
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“…It is clear that a decrease of about 46 K is driven by an external magnetic field of 5 T. The equated driving rate of T M is ∼ 9.2 K/T, one time higher than that of Ni 45 Co 5 Mn 36.6 In 13.4 reported in Ref. [47].…”
Section: Magnetocaloric Effect and Magnetoresistance In Codoped Metammentioning
confidence: 63%
“…Usually, the saturated magnetization of low-temperature martensite is higher than that of high-temperature austenite by 10-20%. [44,45] For the present sample, due to the possibility of two-phase coexistence, two abrupt decreases of magnetization take place with increasing temperature. The combined result makes the saturated magnetization of the martensitic state at low temperature 297 K 45% higher than that of the austenitic state at high temperature 310 K for single crystal Ni [12] 037505-3…”
Section: Magnetic Entropy Change In Conventional Nimn-based Heusler Amentioning
confidence: 79%
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“…It is also known that alloys with low T M undergo a weak first order transformation to a micromodulated pre-martensitic phase at ∼ 260K upon cooling [9]. It has been well-established from earlier studies [10] that in Ni 2+x Mn 1−x Ga, increasing Ni content raises the martensitic transformation temperature and lowers the ferromagnetic transformation temperature until they coincide at x = 0.19.…”
Section: Introductionmentioning
confidence: 97%