Effect of chemical and hydrostatic pressure on the coupled magnetostructural transition of Ni-Mn-In Heusler alloys

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dc.contributor.author Devi, P.
dc.contributor.author Mejía, C.S.
dc.contributor.author Caron, L.
dc.contributor.author Singh, S.
dc.contributor.author Nicklas, M.
dc.contributor.author Felser, C.
dc.date.accessioned 2020-12-16T06:19:51Z
dc.date.available 2020-12-16T06:19:51Z
dc.date.issued 2019-12-10
dc.identifier.issn 24759953
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/1164
dc.description.abstract Ni-Mn-In magnetic shape-memory Heusler alloys exhibit generally a large thermal hysteresis at their first-order martensitic phase transition which hinders a technological application in magnetic refrigeration. By optimizing the Cu content in Ni2CuxMn1.4-xIn0.6, we obtained a thermal hysteresis of the martensitic phase transition in Ni2Cu0.2Mn1.2In0.6 of only 6 K. We can explain this very small hysteresis by an almost perfect habit plane at the interface of martensite and austenite phases. Application of hydrostatic pressure does not reduce the hysteresis further, but shifts the martensitic transition close to room temperature. The isothermal entropy change does not depend on warming or cooling protocols and is pressure independent. Experiments in pulsed-magnetic fields on Ni2Cu0.2Mn1.2In0.6 find a reversible magnetocaloric effect with a maximum adiabatic temperature change of -13 K. © 2019 American Physical Society. en_US
dc.description.sponsorship Science and Engineering Research Board en_US
dc.language.iso en_US en_US
dc.publisher American Physical Society en_US
dc.relation.ispartofseries Physical Review Materials;Vol. 3 issue 12
dc.subject hydrostatic en_US
dc.subject magnetostructural en_US
dc.title Effect of chemical and hydrostatic pressure on the coupled magnetostructural transition of Ni-Mn-In Heusler alloys en_US
dc.type Article en_US


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