Modelling the phase diagram of magnetic shape memory Heusler alloys

We have modelled the phase diagram of magnetic shape memory alloys of the Heusler type by using the phenomenological Ginzburg–Landau theory. When fixing the parameters by realistic values taken from experiment we are able to reproduce most details of, for example, the phase diagram of Ni2+xMn1−xGa in the (T, x) plane. We present the results of ab initio calculations of the electronic and phonon properties of several ferromagnetic Heusler alloys, which allow one to characterize the structural changes associated with the martensitic instability leading to the modulated and tetragonal phases. From the ab initio investigations emerges a complex pattern of the interplay of magic valence electron per atom numbers (Hume–Rothery rules for magnetic ternary alloys), Fermi surface nesting and phonon instability. As the main result, we find that the driving force for structural transformations is considerably enhanced by the extremely low lying optical modes of Ni in the Ni-based Heusler alloys, which interfere with the acoustical modes enhancing phonon softening of the TA2 mode. In contrast, the ferromagnetic Co-based Heusler alloys show no tendency for phonon softening.

[1]  T. Takagi,et al.  Influence of volume magnetostriction on the T–x phase diagram of shape memory Ni2+xMn1−xGa alloys , 2005 .

[2]  P. J. Webster,et al.  Magnetic order and phase transformation in Ni2MnGa , 1984 .

[3]  V. V. Kokorin,et al.  The development of new ferromagnetic shape memory alloys in Ni-Mn-Ga system , 1995 .

[4]  Alexei Sozinov,et al.  Recent breakthrough development of the magnetic shape memory effect in Ni–Mn–Ga alloys , 2005 .

[5]  F. Hu,et al.  Magnetic entropy change in Ni51.5Mn22.7Ga25.8 alloy , 2000 .

[6]  Axel D. Becke,et al.  A Simple Measure of Electron Localization in Atomic and Molecular-Systems , 1990 .

[7]  T. Takagi,et al.  Phase transitions in ferromagnetic Ni2+xMn1−xGa alloys with regard for the modulation order parameter , 2001 .

[8]  Huibin Xu,et al.  A high-temperature shape-memory alloy Ni54Mn25Ga21 , 2003 .

[9]  K. Ullakko,et al.  Relation between structure, magnetization process and magnetic shape memory effect of various martensites occurring in Ni-Mn-Ga alloys , 2003 .

[10]  Ferroelectric phase transitions from first principles , 1995, mtrl-th/9505009.

[11]  K. Ziebeck,et al.  The crystal structure and phase transitions of the magnetic shape memory compound Ni2MnGa , 2002 .

[12]  K P Bohnen,et al.  Phonon dispersion and electron-phonon coupling in MgB2 and AlB2. , 2001, Physical review letters.

[13]  K. Ullakko,et al.  Temperature variation of structure and magnetic properties of Ni–Mn–Ga magnetic shape memory alloys , 2002 .

[14]  K. Ziebeck,et al.  The influence of atomic order on the magnetic and structural properties of the ferromagnetic shape memory compound Ni2MnGa , 2003 .

[15]  L. Sandratskii,et al.  First-principles calculation of the intersublattice exchange interactions and Curie temperatures of the full Heusler alloysNi2MnX(X=Ga,In,Sn,Sb) , 2004, cond-mat/0404162.

[16]  I. Naumov,et al.  Electronic structure and instability of Ni2MnGa , 1999 .

[17]  R. Nieminen,et al.  Coexistence of ferromagnetic and antiferromagnetic order in Mn-doped Ni2MnGa , 2002, cond-mat/0212442.

[18]  T. Takagi,et al.  Magnetocaloric effect in Ni2+xMn1−xGa Heusler alloys , 2004 .

[19]  M. Ibarra,et al.  Composition and temperature dependence of the magnetocrystalline anisotropy in Ni2+xMn1+yGa1+z (x+y+z=0) Heusler alloys , 2002 .

[20]  V. V. Kokorin,et al.  Large magnetic‐field‐induced strains in Ni2MnGa single crystals , 1996 .

[21]  J. Tani,et al.  Magnetic properties of Ni 2.18 Mn 0.82 Ga Heusler alloys with a coupled magnetostructural transition , 2002, cond-mat/0209574.

[22]  Kresse,et al.  Efficient iterative schemes for ab initio total-energy calculations using a plane-wave basis set. , 1996, Physical review. B, Condensed matter.

[23]  Lannin,et al.  Observaton of scattering in an amorphous metal. , 1985, Physical review letters.

[24]  Zhong Lin Wang,et al.  Magnetic properties and structural phase transformations of NiMnGa alloys , 2001 .

[25]  Richard Dronskowski,et al.  Electronic structure and magnetic exchange coupling in ferromagnetic full Heusler alloys , 2005 .

[26]  A. A. Likhachev,et al.  Giant magnetic-field-induced strain in NiMnGa seven-layered martensitic phase , 2002 .

[27]  M. Matsumoto,et al.  Magnetic properties of Heusler type Ni2+xMn1−xGa , 2002 .

[28]  S. Ishida,et al.  A Half-Metallic Band Structure and Fe2MnZ (Z=Al, Si, P) , 1995 .

[29]  Gwyn P. Williams,et al.  A criterion for enhancing the giant magnetocaloric effect: (Ni–Mn–Ga)—a promising new system for magnetic refrigeration , 2004 .

[30]  Johnson,et al.  Origins of compositional order in NiPt alloys. , 1991, Physical review letters.

[31]  Yoshiyuki Kawazoe,et al.  First-Principles Determination of the Soft Mode in Cubic ZrO 2 , 1997 .

[32]  L. Mañosa,et al.  Anomalies related to the TA 2 -phonon-mode condensation in the Heusler Ni 2 MnGa alloy , 1997 .

[33]  N. Papanikolaou,et al.  Slater-Pauling behavior and origin of the half-metallicity of the full-Heusler alloys , 2002 .

[34]  R. Nieminen,et al.  First-principles investigation of phonon softenings and lattice instabilities in the shape-memory system Ni2MnGa , 2003, cond-mat/0304315.

[35]  T. Iijima,et al.  Promising ferromagnetic Ni–Co–Al shape memory alloy system , 2001 .

[36]  V. Lindroos,et al.  Martensitic transformations and mobility of twin boundaries in Ni2MnGa alloys studied by using internal friction , 2003 .

[37]  K. Ziebeck,et al.  Direct observation of a band Jahn-Teller effect in the martensitic phase transition of Ni2MnGa , 1999 .

[38]  D. Shindo,et al.  Low temperature crystal structure of Ni–Mn–Ga alloys , 1999 .

[39]  S. Ishida,et al.  Band Calculation of Cu2MnAl , 1978 .

[40]  Schwartz,et al.  Phonon anomaly, central peak, and microstructures in Ni2MnGa. , 1995, Physical review. B, Condensed matter.

[41]  V. Lindroos,et al.  The behaviour of Ni-Mn-Ga martensitic alloys in magnetic field , 2001 .

[42]  Fradkin External field in the Landau theory of a weakly discontinuous phase transition: Pressure effect in the martensitic transitions. , 1994, Physical review. B, Condensed matter.

[43]  A. D. Corso,et al.  First-principles study of lattice instabilities in ferromagnetic Ni2MnGa , 2003, cond-mat/0304349.

[44]  Huibin Xu,et al.  Magnetic and structural transition of Ni50+xMn25−x/2Ga25−x/2 (x=2–5) alloys , 2002 .

[45]  Half-metallicity and Slater-Pauling behavior in the ferromagnetic Heusler alloys , 2004, cond-mat/0408068.

[46]  K.H.J. Buschow,et al.  New Class of Materials: Half-Metallic Ferromagnets , 1983 .

[47]  R. Nieminen,et al.  Structural, thermal, and magnetic properties of Ni2MnGa , 2002 .

[48]  T. Takagi,et al.  Structural and magnetic phase transitions in shape-memory alloys Ni 2+x Mn 1-x Ga , 1999 .

[49]  T. Takagi,et al.  Ferromagnetic shape memory alloys Ni_{2 p x p y}Mn_{1 p x}Ga_{1 p y} , 2004 .

[50]  F. Hu,et al.  Large magnetic entropy change in a Heusler alloy Ni 52.6 Mn 23.1 Ga 24.3 single crystal , 2001 .

[51]  Y. Muhammad,et al.  Composition dependence on the martensitic structures of the Mn-rich NiMnGa alloys , 2004 .

[52]  Huibin Xu,et al.  Co-occurrence of magnetic and structural transitions in the Heusler alloy Ni53Mn25Ga22 , 2002 .

[53]  K. Ishida,et al.  Phase equilibria and phase transformations in new B2-type ferromagnetic shape memory alloys of Co-Ni-Ga and Co-Ni-Al systems , 2001 .

[54]  Risto M. Nieminen,et al.  First-principles investigations of homogeneous lattice-distortive strain and shuffles in Ni2MnGa , 2003 .

[55]  Shape memory ferromagnets , 2003, cond-mat/0311433.

[56]  Manfred Kohl,et al.  A novel actuation mechanism on the basis of ferromagnetic SMA thin films , 2004 .

[57]  J. M. Maclaren Role of alloying on the shape memory effect in Ni2MnGa , 2002 .

[58]  F. Albertini,et al.  Effect of hydrostatic pressure on magnetization of Ni2+xMn1−xGa alloys , 2005 .

[59]  Shoji Ishida,et al.  Search for Half-Metallic Compounds in Co2MnZ (Z=IIIb, IVb, Vb Element) , 1995 .

[60]  H. Morito,et al.  Magnetic and martensitic phase transitions in ferromagnetic Ni–Ga–Fe shape memory alloys , 2002 .

[61]  Gwyn P. Williams,et al.  Influence of the nature of the magnetic phase transition on the associated magnetocaloric effect in the Ni–Mn–Ga system , 2005 .

[62]  R. Santamarta,et al.  HREM study of different martensitic phases in Ni–Mn–Ga alloys , 2003 .

[63]  Jürgen Kübler,et al.  Formation and coupling of magnetic moments in Heusler alloys , 1983 .

[64]  H. Morito,et al.  Magnetocrystalline anisotropy in single-crystal Co-Ni-Al ferromagnetic shape-memory alloy , 2002 .

[65]  K. Ishida,et al.  Magnetic and martensitic transformations of NiMnX(X=In,Sn,Sb) ferromagnetic shape memory alloys , 2004 .

[66]  F. Albertini,et al.  Giant entropy change at the co-occurrence of structural and magnetic transitions in the Ni Mn Ga Heusler alloy , 2002, cond-mat/0209564.

[67]  S. Ishida,et al.  Band theory of Co2MnSn, Co2TiSn and Co2TiAl , 1982 .

[68]  Ishida,et al.  Hyperfine fields and electronic structures of the Heusler alloys Co2MnX (X=Al, Ga, Si, Ge, Sn) , 1990 .

[69]  V. V. Kokorin,et al.  Magnetically controlled shape memory effect in Ni2MnGa intermetallics , 1997 .

[70]  A. Freeman,et al.  Co2MnX (X=Si, Ge, Sn) Heusler compounds: An ab initio study of their structural, electronic, and magnetic properties at zero and elevated pressure , 2002 .

[71]  J. Pons,et al.  SEQUENCE OF MARTENSITIC TRANSFORMATIONS IN NI-MN-GA ALLOYS , 1998 .

[72]  PREMARTENSITIC TRANSITION DRIVEN BY MAGNETOELASTIC INTERACTION IN BCC FERROMAGNETIC NI2MNGA , 1997, cond-mat/9709246.

[73]  S. Ishida,et al.  Electronic Structures of the Ferromagnetic Heusler Alloys , 1980 .

[74]  P. Entel,et al.  A critical discussion of calculated modulated structures, Fermi surface nesting and phonon softening in magnetic shape memory alloys Ni2Mn(Ga, Ge, Al) and Co2Mn(Ga, Ge) , 2004, cond-mat/0407157.

[75]  Richard D. James,et al.  Magnetic and magnetomechanical properties of Ni2MnGa , 1999 .

[76]  Alexei Sozinov,et al.  Composition and temperature dependence of the crystal structure of Ni–Mn–Ga alloys , 2004 .

[77]  L. A. Knauss,et al.  Identification of novel compositions of ferromagnetic shape-memory alloys using composition spreads , 2003, Nature materials.

[78]  Y. Ishikawa,et al.  Spin Waves in Heusler Alloys Pd2MnSn and Ni2MnSn , 1976 .

[79]  T. Takagi,et al.  Ferromagnetism of thermoelastic martensites: Theory and experiment , 2003 .

[80]  Yongbin Lee,et al.  Generalized susceptibility of the magnetic shape-memory alloy Ni 2 MnGa , 2002 .

[81]  S. Thienhaus,et al.  Ab initio calculations of structure and lattice dynamics in Ni-Mn-Al shape memory alloys , 2004 .

[82]  K. Ishida,et al.  Magnetic and Martensitic Phase Transformations in a Ni54Ga27Fe19 Alloy , 2002 .

[83]  P. Entel,et al.  A Ginzburg-Landau Theory For Ni-Mn-Ga , 2002 .

[84]  Lei Zhang,et al.  Magnetic-phase transitions and magnetocaloric effects , 2002 .

[85]  L. Mañosa,et al.  Entropy change and magnetocaloric effect in Gd5(SixGe1-x)4 , 2002 .

[86]  E. Salje,et al.  Quantum saturation of the order parameter and the dynamical soft mode in quartz , 2003 .

[87]  R. Nieminen,et al.  Magnetic anisotropy in Ni2MnG , 2002 .

[88]  R. Santamarta,et al.  Long-period martensitic structures of Ni-Mn-Ga alloys studied by high-resolution transmission electron microscopy , 2005 .

[89]  Risto M. Nieminen,et al.  Structural properties of magnetic Heusler alloys , 1999 .

[90]  R. Nieminen,et al.  Ab initio study of tetragonal variants in Ni2MnGa alloy , 2002 .

[91]  M. Napoletano,et al.  Composition dependence of magnetic and magnetothermal properties of Ni-Mn-Ga shape memory alloys , 2004 .

[92]  V. Lindroos,et al.  Behaviour of Ni-Mn-Ga alloys under mechanical stress , 2003 .

[93]  G. Kresse,et al.  From ultrasoft pseudopotentials to the projector augmented-wave method , 1999 .

[94]  V. Chernenko Compositional instability of β-phase in Ni-Mn-Ga alloys , 1999 .

[95]  Outi Söderberg,et al.  Ferromagnetic resonance in non-stoichiometric Ni1−x−yMnxGay , 2001 .

[96]  S. Allen,et al.  The ferromagnetic shape-memory effect in Ni–Mn–Ga , 2005 .

[97]  Shapiro,et al.  Precursor effects and premartensitic transformation in Ni2MnGa. , 1996, Physical review. B, Condensed matter.

[98]  K. Ullakko,et al.  Structure and twinning stress of martensites in non-stoichiometric Ni2MnGa single crystal , 2003 .

[99]  E. Kurmaev,et al.  Local moments in Mn-based Heusler alloys and their electronic structures , 1999 .

[100]  E. Cesari,et al.  Crystal structure of martensitic phases in Ni–Mn–Ga shape memory alloys , 2000 .

[101]  T. Takagi,et al.  Shape memory effect due to magnetic field-induced thermoelastic martensitic transformation in polycrystalline Ni–Mn–Fe–Ga alloy , 2001 .

[102]  L. Mañosa,et al.  Multiscale origin of the magnetocaloric effect in Ni-Mn-Ga shape-memory alloys , 2003 .

[103]  H. Wada,et al.  Giant magnetocaloric effect of MnAs1−xSbx , 2001 .

[104]  Shoji Ishida,et al.  Electronic Structure and Lattice Transformation in Ni2MnGa and Co2NbSn , 1989 .

[105]  Magnetic field induced entropy change and magnetoelasticity in Ni-Mn-Ga alloys , 2002 .

[106]  L. Mañosa,et al.  Premartensitic and martensitic phase transitions in ferromagnetic Ni 2 MnGa , 1999 .

[107]  H. Akai Fast Korringa-Kohn-Rostoker coherent potential approximation and its application to FCC Ni-Fe systems , 1989 .