Broken Dynamic Symmetry and Phase Transition Precursor

Broken Dynamic Symmetry and Phase Transition Precursor

Symmetry breaking is a central concept of Landau phase transition theory, which, however, only considers time-averaged static symmetry of crystal lattice while neglects dynamic symmetry of lattice vibrations thus fails to explain the ubiquitous transformation precursor phenomena. We show that incomp...

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Veröffentlicht in:arXiv.org 2013-02
Hauptverfasser: Jin, Yongmei M, Wang, Yu U, Yang, Ren, Ma, Fengde D, Zhou, Jie E, Tian-Le, Cheng, Wang, Ben L, Geng, Liwei D, Kuyanov, Igor A
Format: Artikel
Sprache:eng
Schlagworte:
Anomalies
Broken symmetry
Crystal lattices
Domains
Lattice vibration
Manganese
Martensitic transformations
Nickel
Phase transitions
Phonons
Precursors
Single crystals
Symmetry
Synchrotron radiation
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Zusammenfassung:Symmetry breaking is a central concept of Landau phase transition theory, which, however, only considers time-averaged static symmetry of crystal lattice while neglects dynamic symmetry of lattice vibrations thus fails to explain the ubiquitous transformation precursor phenomena. We show that incomplete phonon softening prior to phase transformation leads to dynamic symmetry breaking, whose natural consequences manifest as various precursor "anomalies" that have been difficult to understand from traditional theory. Our experimental observation of heterogeneous phonon domains in high-static-symmetry austenite phase of thermoelastic Ni-Mn-Ga single crystals before martensitic transformation by using three-dimensional synchrotron X-ray phonon diffuse scattering confirms the idea of dynamic symmetry breaking. It provides a natural mechanism and physical understanding of ubiquitous phase transition precursor phenomena in metals, alloys and ceramics.
ISSN:2331-8422