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Magnetoresistance and Magnetocaloric Effect at a Structural Phase Transition from a Paramagnetic Martensitic State to a Paramagnetic Austenitic State in Ni50Mn36.5In13.5 Heusler Alloys

机译：Ni50Mn36.5In13.5 Heusler合金中从顺磁马氏体状态到顺磁奥氏体状态的结构相变处的磁阻和磁热效应

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It is established, using magnetization measurements, that Ni50Mn36.5In13.5 is in a paramagnetic state (PS) above and below the martensitic transition temperature (TM). Magnetoresistance (MR) and magnetic entropy changes (ΔSM) in the vicinity of TM were studied. MR and ΔSM at TM were found to be ≈−8% and ≈ +24 J Kg−1 K−1, respectively, at ΔH = 5 T. Although MR and ΔSM values were lower than compared to those found in other Heusler systems, the significantly smaller hysteresis observed in Ni50Mn36.5In13.5 makes this compound, and other such compounds that undergo a martensitic transition in a PS, promising for the study and applications of magnetocaloric magnetic materials.

机译：使用磁化测量可以确定，Ni50Mn36.5In13.5在马氏体转变温度（TM）之上和之下均处于顺磁性状态（PS）。研究了TM附近的磁阻（MR）和磁熵变（ΔSM）。在ΔH= 5 T时，在TM处的MR和ΔSM分别约为≈-8％和≈+24 J Kg-1 K-1。尽管MR和ΔSM值比在其他Heusler系统中发现的要低， Ni50Mn36.5In13.5中观察到的明显较小的磁滞使该化合物以及在PS中经历马氏体转变的其他此类化合物，有望用于磁热磁性材料的研究和应用。

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Pathak Arjun K.; Dubenko Igor; Pueblo Christopher; Stadler Shane; Ali Naushad;
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1. Magnetoresistance and magnetocaloric effect at a structural phase transition from a paramagnetic martensitic state to a paramagnetic austenitic state in Ni_(50)Mn_(36.5)In_(13.5) Heusler alloys [J] . Arjun K. Pathak, Igor Dubenko, Christopher Pueblo, Applied Physicsletters . 2010,第17期

机译：Ni_（50）Mn_（36.5）In_（13.5）Heusler合金中从顺磁马氏体状态到顺磁奥氏体状态的结构相变时的磁阻和磁热效应
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机译：掺杂Cu的Ni-Mn-In Heusler合金的逆磁热效应和与马氏体转变相关的磁阻
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机译：伴随磁性和结构相变的Heusler合金NiMnGa中的相变过程和磁热效应
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机译：具有一阶铁磁到铁磁相变的磁热超磁体的自相似性。
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机译：磁性对Nimn基Heusler合金马氏体相变及相关磁热效应的影响
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Magnetoresistance and Magnetocaloric Effect at a Structural Phase Transition from a Paramagnetic Martensitic State to a Paramagnetic Austenitic State in Ni50Mn36.5In13.5 Heusler Alloys

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