Münster 1999 – wissenschaftliches Programm

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M: Metallphysik

M 2: Struktur und Umwandlungen I

M 2.4: Vortrag

Montag, 22. März 1999, 11:00–11:15, S 8

Premartensitic phonon softening at a free Ni₂MnGa single crystal surface: an x-ray study — •G. Landmesser¹, U. Klemradt¹, T.R. Finlayson², R.L. Johnson³, and J. Peisl¹ — ¹Sektion Physik der Ludwig-Maximilians-Universit"at M"unchen — ²Department of Physics, Monash University — ³II. Institut f"ur Experimentalphysik, Universit"at Hamburg

Interest in martensitic systems showing only a weakly first-order transition with premonitory phonon mode softening has increased steadily in recent years. The Heusler alloy Ni₂MnGa is a model system for this class of materials with a transition heralded by strong softening of the [ζ ζ 0 ] TA₂ bulk phonon mode at ζ=1/3

[1] . For the composition investigated here, the softening precedes a transition into an intermediate phase, which is followed by the martensitic phase. Classical soft mode theory is not applicable to the bulk transition because of the incomplete phonon softening. However, it was suggested recently that the enhanced softening of associated surface phonons could initiate the phase transformation

[2] . To test experimentally whether the free surface of a crystal can act as a preferred nucleation site, we have used intense synchrotron radiation at HASYLAB to measure diffuse scattering from phonon softening. A grazing incidence geometry guaranteed tunable scattering depths ranging from nanometers to microns. A first data evaluation indicates that the surface does not simply mirror the bulk behaviour. The data will be discussed critically with regard to the role of surface nucleation. Support by DFG PE 127 and NATO Linkage Grant 951422 is gratefully acknowledged.

[1] A. Zheludev et al., Phys.Rev.B, 51(17), pp. 11310, (1995)

[2] V.V. Kokorin, Phase Transitions, 54, pp. 143-149, (1995)