Fundamental aspects of symmetry and order parameter coupling for martensitic transition sequences in Heusler alloys

Carpenter, Michael A.; Howard, Christopher J.

Title: Fundamental aspects of symmetry and order parameter coupling for martensitic transition sequences in Heusler alloys
Creator: Carpenter, Michael A.; Howard, Christopher J.
Relation: Acta Crystallographica. Section B: Structural Science, Crystal Engineering and Materials (Online) Vol. 74, p. 560-573
Publisher Link: http://dx.doi.org/10.1107/S2052520618012970
Publisher: Wiley-Blackwell
Resource Type: journal article
Date: 2018
Description: Martensitic phase transitions in which there is a group–subgroup relationship between the parent and product structures are driven by combinations of soft-mode and electronic instabilities. These have been analysed from the perspective of symmetry, by considering possible order parameters operating with respect to a parent structure which has space group Im3̅m. Heusler structures with different stoichiometries are derived by operation of order parameters belonging to irreducible representations H₁⁺ and P1 to describe the atomic ordering configurations. Electronic instabilities are ascribed to an order parameter belonging to the Brillouin zone centre, Γ₃⁺, which couples with shear strains to give tetragonal and orthorhombic distortions. An additional zone centre order parameter, with Γ₅⁺ symmetry, is typically a secondary order parameter but in some cases may drive a transition. Soft-mode instabilities produce commensurate and incommensurate structures for which the order parameters have symmetry properties relating to points along the Σ line of the Brillouin zone for the cubic I lattice. The electronic and soft-mode order parameters have multiple components and are coupled in a linear–quadratic manner as λq_Γq²_Σ. As well as providing comprehensive tables setting out the most important group–subgroup relationships and the order parameters which are responsible for them, examples of NiTi, RuNb, Ti₅₀Ni₅₀−_xFe_x, Ni_2+xMn_1−xGa and Ti₅₀Pd_50−xCr_x are used to illustrate practical relevance of the overall approach. Variations of the elastic constants of these materials can be used to determine which of the multiple order parameters is primarily responsible for the phase transitions that they undergo.
Subject: martensite; phase transitions; group theory; Heusler alloys; order parameters
Identifier: http://hdl.handle.net/1959.13/1407502
Identifier: uon:35735
Identifier: ISSN:2052-5206
Rights: This open-access article is distributed under the terms of the Creative Commons Attribution Licence http://creativecommons.org/licenses/by/2.0/uk/legalcode, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.
Language: eng
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